NO20120567A1 - Wireless video conferencing system and method of installing the system. - Google Patents

Description

Introduction and background 4 Known technology .......................................... ................................................ .............................. 5 Known video conferencing technology on the market today 10 Other limiting factors of known technology 11 Weaknesses and problems with known technique 11 The invention .............................................. ................................................ ................... 13 Background 13 Competence needed to invent the following invention ................... ............ 13 Wireless technology ................................... ................................................ ............................................. 13 Smartphone technology ... ................................................ ................................................ ................. 14 Description of the invention ............................. ................................................ ........ 16 Definitions ............... ................................................ ................................................ ............ 16 Explanation of figures ................................... ................................................ .......................... 17 Detailed description of the invention ................... ................................................ ........ 17 Pairing the devices ...................................... ................................................ .................................... 20

Patent claim ................................................... ................................................ ..................... 22 List of Figures ......................... ................................................ ................................ 29

Introduction and background

There are many solutions for real-time communication that enable virtual meetings between meeting participants who are not in the same physical location. Inventions such as the telephone, the mobile phone, the conference phone and video conferencing systems enable meeting participants to interact with others regardless of the distance that separates them.

For larger meetings, where multiple meeting participants attend each meeting location or meeting room, businesses typically use High-End HD (High Definition) video conferencing systems that can capture, decode, and transmit live images and video in real time between two or more locations. These systems enable real-time communication, which for many can be as good as a meeting where the participants are in the same room.

The first "picture phone" was demonstrated as early as the 1930s. Nevertheless, we first saw that SD (Standard Definition) video conferencing systems first came onto the market during the 1990s. These systems used ISDN (Integrated Services Digital Network) to transfer data between the locations. In recent years, the development of the internet, broadband and HD video conferencing systems has increased the use of video conferencing and is on the verge of becoming a standard tool for most businesses.

Video conferencing system typically consists of a camera, codec (coder and decoder), microphone(s), monitor(s), speaker(s) and remote control(s). Cables are needed to connect the different parts to each other and to a network or server. The installation of these video conferencing systems is therefore time-consuming and complicated. Often the entire meeting room needs to be redesigned to become a dedicated video conference or "telepresence" meeting room. The cables must be routed, placed and hidden. The setup must be tested and the user needs training to use the system. Since this is complicated, video conferencing systems have traditionally been sold through specialist "integrators". A specialist typically spends several hours, if not days, installing and configuring a simple video conferencing system. The video conferencing system is stationary and cannot be moved to the location where it is needed. Time-consuming and complicated installation, low user-friendliness and low portability (movability) are barriers to the spread of video conferencing technology, and the challenge that the inventors of the following invention would solve.

Known technology

There are many patents that describe the setup of video conferencing systems for use in meeting rooms. These systems typically consist of a monitor, a camera, a separate codec (coder and decoder), wired microphones, and an interface for user input. Some systems consist of multiple screens, speakers, microphones and remote controls. Some systems can also be controlled with a touch screen or used with a smartphone. Examples of video conferencing systems and related inventions are described in these publications:

XP031968624 Shows a wireless video conference camera which, in addition to the system itself, requires a computer or laptop to be able to conduct a video conference.

US5760824 Shows a wireless video conferencing system that can be used for video communication. The system consists of two devices that communicate wirelessly and can be connected to a television.

NO20093142 describes how a user can manipulate, zoom and tilt a video conference camera using a touch screen.

NO325083 shows a wireless device that can be used to set up a video conference between two separate video conference systems. The invention can only be used to initiate the call, but transfers the call to the system as soon as contact is established. The wireless device has no active role in the conversation after contact is established. The inventors of NO325084 also claim in the text that traditional video conferencing systems are not suitable for travel (portability) due to size, weight and configuration issues. "when traveling from place to place, however, it is not appropriate to bring high-level video conferencing equipment with you, taking into account physical size and configuration issues" (NO 325083, Page 1, paragraph 35)

NO 331163 describes a video conference camera which can be connected to a computer including a USB (Universal Serial Bus) connector. This invention is dependent on a computer with associated software to function. A USB connector cannot display video on any screen, projector or monitor. In addition, the user must sit near the camera and PC. This solution is not suitable for larger meeting rooms and large gatherings.

US20110209177A1 describes a technique that implements a web-based remote control application on a smartphone.

US 805 4336 shows a camera with pan, tilt, zoom, (PTZ) functionality with a microphone included in the assembly. But, as the title clearly suggests, cables are required to connect power as well as a network.

US 7050084 B1 clearly shows that traditional video conferencing systems rely on cable to connect camera, monitor, microphone, codec, speaker and network together.

GB 2320657 discloses a wireless video conferencing system which is mobile, wireless and capable of transmitting and receiving video and images wirelessly. But the patent says nothing about how the devices connect to a video display, camera or wireless infrastructure. The patent does not show how the information is presented to the user. Receiving audio and video is a critical component of a video conference.

US 20120033028 A1 shows a video conference using a mobile phone and video camera operating on different networks. The invention does not show how these two elements can be "paired".

US 20110026441 A1 shows how a wireless access point can optimize the use of different frequencies and channels to achieve an optimal link between client and access point.

US 20120092441 A1 describes a remote control without additional functionality such as a navigation menu and separate screen. The remote control has neither screen, microphone, camera nor speaker. The invention also needs a USB cable to be "paired" with the rest of the system.

WO 2009133434 A1 describes em remote control without any functionality other than navigating a menu on a separate screen. The remote control has neither screen, microphone, camera nor speaker. The remote must be connected to a network in order to be associated with the device. The remote control and web camera are separate from the rest of the system.

US 20120007938 A1 describes a communication device that is able to use both mobile phone networks (such as 3G or 3G networks) as well as local wireless (Wi-Fi) networks simultaneously to receive data traffic. The purpose is to achieve increased redundancy. This is possible with most PCs today. The device does not use the mobile phone or computer as a medium for two-way video communication.

There are similar systems on the market, such as the Pixavi Xcaster series (Xcaster ST5000 and Xcaster EX5000) which are marketed as wireless video conferencing endpoints (see: http:// www. pixavi. com/ hardware-xcaster-st5000. html, and http: // www. prweb. com/ pdfdownload/ 2077314. pdf). These products are designed for use in outdoor, demanding environments by a single user who has a combined headphone and head microphone mounted on their head for audio transmission. On the other end, it can be a regular video conferencing system (for example H.323 or SIP), or a PC with video conferencing software. The system does not have any wireless accessories and cannot be controlled from an external source.

Known video conferencing technology on the market today

As mentioned in the introduction, there are several ways businesses can communicate between two physically separate locations. The next sections explain the state of the art through the products and technologies that were known at the time of the application. Figure 1 shows a video conference camera for HD video conferencing. As the patent title suggests, the camera needs a cable to transmit data. The camera can be connected to a display or a monitor, including a cable. Camera does not have any possibility to connect wirelessly to anything. Microphone(s), speaker(s), camera(s) and codec(s) must therefore be connected with cables. Several different devices and cables increase the complexity of the installation. This camera must be installed by a specialist. Figure 2 shows a similar system to Figure 1. This system shows that the camera can be connected to a screen, including an HDMI cable. This camera also has no option to connect wirelessly to a network. Figure 3 shows patent N0331163. The device is a portable video conference camera. The patent describes a device that can provide sound and image to a PC, including a USB cable. The device uses hardware, network and software installed on the PC to encode and decode the video stream before it is sent via a network to a remote location. The inventors describe that wireless communication is impractical for HD video conferencing due to low bandwidth. (NO 331163, Page 2, Section 25). This shows that the professionals behind the invention N0331163 obviously believe that wireless technology is not suitable for HD video conferencing systems. The inventors or professionals behind N0331163 have knowledge in video conferencing technology and write in their patent that cables are required to do HD video conferencing. It is therefore obviously inventive to solve this problem. Figure 3 shows how existing webcams and how they can be mounted on a screen or a table. These cameras can be purchased online or directly from

a dealer. But, as mentioned earlier, a computer with a USB connection is required to function as intended, and the cameras are not designed for meetings where there are more than 2 meeting participants in each meeting room.

Other alternative solutions and combinations of other known technology at the time of application

As an alternative to a dedicated meeting room system designed and built for the purpose of conducting a video conference between multiple locations, where multiple participants are at each location, a professional can create a homemade solution consisting of a web camera, a microphone, speakers, PC and projector or screen. The user could also install known software on the PC. With such a solution, you can have video conferences over the internet. However, this solution does not solve the problems of installation, setup, ease of use and portability.

Other limiting factors of known technology

Most businesses have at least one meeting room. This meeting room usually has a display or a projector for presentation skills. If you wanted to conduct a video conference in a typical meeting room, you would have to install the aforementioned technology, lay cables and find a suitable place to place the codec and camera. Cables tend to get tangled up in each other. Meeting rooms also have built-in shafts to hide these cables. Cables are considered unsightly and must therefore be hidden away. In addition, this setup must be installed and tested by a professional. This is time-consuming and will use up much of the time that the user had expected to save by conducting a video conference instead of travelling.

Weaknesses and problems with prior art

To summarize, there are several problems with the prior art. To conduct a video conference, one needs to install and set up a video conference system. This is time-consuming and requires a specialist. Users must then be trained. This can take up to two weeks per system. Today's solutions consist of several parts that must be connected together, including cables. Traditional video conferencing systems are stationary and cannot be easily installed and set up when needed without significant planning.

There is consequently a need for new technology which is easy to install and which is more flexible in use than the known technology at the time of application. There is a need for a system that does not require a specialist or a computer to operate and that can be used in multi-participant meeting rooms.

The invention

Background

Installation and use of video conferencing is time-consuming and complicated. To overcome the problems of the prior art, the purpose of the following invention is to provide a video conferencing system that is easy to install and does not require cables to connect codec(s), microphone(s) or speaker(s). The installation is less complicated and therefore faster and there is no need for a specialist. The inventors wanted to create an all-in-one, easy-to-use, easy-to-install video conferencing system for the meeting room. The first challenge was overcoming the need for cables.

Competence needed to invent the following invention

To be able to envision a solution to the aforementioned problems requires a deep knowledge and experience in wireless antenna technology, wireless transmission technology in addition to a good knowledge of video conferencing solutions. The inventors must also have knowledge in acoustics, signal processing, camera technology, industrial design and production.

Wireless technology

To solve said problem, technology can be provided that can transmit the same information wirelessly instead of using cables. This would significantly reduce installation time and complexity.

Professionals in the field claim that wireless technology cannot provide enough bandwidth to conduct HD video conferencing in real time (see for example: N0331163, page 2, paragraph 25). The inventors behind N03331163 claim that wireless technology cannot deliver the necessary bandwidth, stability or response time required for HD video conferencing. Other professionals claim that it is "challenging, perhaps impossible" to connect a video conferencing system to a wireless network that requires authentication (NO 325083, page 2, section 5). This shows that other professionals in the field do not see wireless video conferencing systems as practical or technically feasible.

The inventors of the following invention have seen that wireless technology has matured and become sufficiently powerful and stable to be able to transmit video and audio in high quality and in real time. This development comes from the inventors of mobile phone technology, and not from the inventors of video conferencing technology.

Smartphone technology

Smartphones have become very powerful and easier to use compared to other products such as PCs, headphones, speakers and TVs. Smartphones come with support for many types of wireless radio communication such as Bluetooth, NFC (Near Field Communications) and Wi-Fi. These devices can be easily connected to wireless access points, including step-by-step graphical user interfaces. Users can also use their smartphone to control various applications wirelessly. The smartphone has become an important tool and users expect to be able to make both audio and video calls. Many smartphones today have the option of carrying out SD (Standard Definition) video conferencing or video calling, and one would think that the distance between traditional video conferencing and mobile devices will eventually blur. The problem is that a smartphone is made for personal use. This means that the camera, microphone and speakers are designed for one to one communication. Furthermore, the processing power in these devices is not powerful enough to carry out HD video streaming.

Video conferencing systems today use cables to transmit audio and video. Professionals have not been able to develop wireless technology that can replace cables. Some vendors have wireless controls, and some have smartphone applications that can be used to remotely control the video conferencing system, but these are only one-way communication devices and do not have a microphone, speaker, or the ability for any two-way interaction. These devices are used to set up the call, but have no active role in the conference itself. There is still a need for the installation of wired video conferencing systems. There are therefore several remote controls and smartphone applications on the market, but there is no known technique where this is used for input or output during a video conference. In addition, smartphones do not have sufficient resources such as processing power, microphone(s), speaker(s) or camera(s) to be used in video conferencing.

With recent developments in wireless technology, as well as smartphone technology, the inventors behind upcoming requirements have envisioned a system that combines the flexibility and portability of a personal smartphone with a powerful wireless HD video conference camera with the necessary processing power to conduct an HD video conference. To be able to provide such technology, it requires knowledge in video conferencing technology, wireless technology and smartphone technology. Development is fast and insight into all three fields requires a lot of imagination, experience and expertise.

Description of the invention

Definitions

Video conference endpoint: A device that has the ability to transmit and receive live video and audio through a network. This device can be used as an alternative to a physical meeting.

ITU (International Telecommunications Union): A UN organization for ICT technology that defines telecommunication standards such as H.32<*>and H.24<*>.

Radio frequency circuit board: Antenna and signal processing hardware and software capable of using one or more defined radio frequencies.

Remote control (20a): Is an important part of a video conferencing system. The device resembles a regular remote control. This specific remote control has several built-in functionalities such as a graphical user interface, a touch screen, speakers, microphones, codec and radio frequency circuit board. This device is abbreviated and called a remote control.

Smartphone (20b): A smartphone with a camera, speaker, microphone and radio frequency circuit board.

"Pairing": The procedure for establishing a communication link between one or more devices, for example a remote control (20a), or a smartphone (20b) and/or a camera (10a). The camera (10a) may also have a "pairing button".

Video display (30a): Any type of device capable of displaying video such as a television, monitor, projector or computer screen. This video screen can be of any size or thickness. The video display can be connected to the devices either using a cable (for example an HDMI cable) or a wireless connection.

Stream or video stream: A continuous flow of data in the form of live video and audio that is sent through a network and received and displayed at another location. Remote server (90a): A server used to store data and or negotiate and route multi-party calls such as an MCU (Multipoint Control Unit) server.

Explanation of figures

The following figures are included to describe the invention and the context in which the invention can be used. Figure 5 shows how the invention is used in connection with a flat screen (30a). The camera (10a) is connected to a monitor and wirelessly to a user input and output device (remote control, 20a) and wireless network access point (70a). Figure 6 shows the invention in a configuration where the remote control is placed on a meeting room table (40a) in combination with external speakers (50a) and a monitor (30a). Figure 7 shows the invention together with several meeting participants (80a) and remote controls (20a) or smartphones (20b). The camera (10a) can be connected to several remote controls (20a) at the same time. Figures 8, 9, 10 and 11 show camera (10a) in detail and in several different configurations and from several viewing angles.

Figures 12 and 13 show the remote control (20a) in detail.

Figure 13 shows the remote control (20a) from another angle.

Figure 14 shows how the remote control (20a) is connected wirelessly to the camera (10a) and a network and vice versa. Figure 15 shows how a remote control and smartphone (20a) in an assembly with a built-in camera can be connected wirelessly to a network and vice versa.

Figure 16 shows the contents of the two units in detail.

Detailed description of the invention

The purpose of the invention is to provide technology that can solve the aforementioned problem with known technology, namely time-consuming and complicated installation, low user-friendliness and low portability. In addition, the invention will move the technique of using wireless transmission and smartphones in conjunction with HD video conferencing systems to a new level.

The invention is a wireless HD video conference system for the meeting room that is easy to install and can be used without the need for a PC or Laptop. The system can be used together with any monitor, display or projector. The invention consists of two devices, an HD camera (10a) which has all the necessary technology and components needed to carry out an HD video conference, and a remote control (20a, 20b). The camera (10a) and the remote control (20a, 20b) connect to each other and to a network through radio frequencies such as Wi-Fi, Wi-Fi Direct, Bluetooth or any wireless communication standard.

Wireless communication instead of cables allows for a more flexible meeting room layout, increased portability and ease of installation. The remote control (20a) is used as a user interface, microphone and codec, as a display and as a speaker. The remote control can do all these tasks in parallel (simultaneous) or just one function at a time. The remote control can also display images, files, presentations, audio and video from the camera and from other sources such as an external server. The remote control can be powered from any power supply, it can also be used with the built-in battery. The remote control will typically be located on the meeting room table (40a) near the meeting participants (80a). The remote control has a familiar user interface and is also used as an input device and configuration of the entire system. The remote control (20a) can be a device as described, but can also be a standard smartphone (20b) or tablet with the necessary software installed. Other data and user input sources may carry a remote server, or a remote or local PC.

The camera (10a) is connected directly to a display, projector or monitor with an HDMI cable or another suitable connection method. This connection can also be a VGA, DVI or Mini-DVI connection method using a standard converter. The connection method can also be a wireless connection such as Wi-Fi Display. The camera (10a) has all the necessary components to encode video and sound built into the device. The camera (10a) is also connected to a network such as the Internet with a wireless connection or a cable (for example an Ethernet RJ-45 cable). The camera (10a) connects to a standard power outlet or uses the battery included in the device. The camera can be used in many different configurations. The camera

(10a) can be mounted on top of a display, on the wall, on the table or any flat surface (see figures 8,9,10 and 11).

The remote control (20a) interacts wirelessly with the camera (10a), and other input devices such as wireless displays, microphones, speakers and networks (such as the Internet). The units (10a and 20a) can share resources and computing power. A user can give instructions to the camera (10a) using the remote control (20a). The remote control (20a) also has built-in microphones and speakers. The remote control (20a), combined with the camera (10a) has all the necessary computing power, microphones and speakers needed to carry out a high-quality video conference in a meeting room with several meeting participants (80a) (see also Figure 7). There can also be several remote controls (as shown in Figure 7) at the same time. Each meeting participant (80a) can also use their own smartphone (20b) as their own microphone and or speaker. Since the microphone and codec are included in both the camera (10a) and the remote control (20a), both devices are by themselves fully usable video conferencing systems without the other device connected.

There are no limitations when it comes to the size of the system. However, the inventors have intended to make it as compact and portable as possible. The system can also be linked together with several cameras and monitors. For example, you can set up several screens next to each other and have several cameras connected to each screen. This setup allows you to have even more meeting participants and provide a more "telepresence" video conference experience. The system can also be scaled to work with larger screens and larger meeting rooms.

Since the invention uses wireless technology that is also found in most smartphones, the meeting participants (80a) can use microphones and speakers found in their own smartphones (20b) in combination with the other devices (10a and 20a). This opens up new and more innovative configurations of video conferences. With such a set-up, there is no longer a need for an additional table microphone. This configuration will increase the sound quality since the microphone is closer to the meeting participant, provide increased redundancy and reduce the cost of acquiring such a system.

Pairing the devices

The inventors faced a challenge when they had to find a solution for how the user can easily "pair" the devices (10a, 20a and 20b) with each other and a network. Since most video conferencing systems do not have any form of user input (usually just an on/off button), it is difficult for a user to enter login information and connect the camera to a wireless network. To date this has not been a problem as known technology has only supported wired Ethernet (RJ45) connections and has required a specialist to install. The cameras have also been used in combination with a separate codec that handles encoding, decoding and signalling. In addition, speakers and microphones have been connected with cables. Today, video conferencing system configuration is typically done by connecting the system to a computer, or through a network cable and a server and then to a computer, and being configured manually (via an interface). This is a barrier to using the technology since the method requires a specialist.

To install and configure a camera without user input capabilities and the ability to connect it to a network wirelessly, the inventor had to come up with a method involving the camera's (10a) optical lens and an optical code (60a) and a pattern recognition algorithm. The camera (10a) has the necessary computing power to run a pattern recognition algorithm built into the device. The remote control (20a) receives the necessary information about the network from the user and transforms this information into a machine-readable optical code (60a) which it can display on the display of the remote control (20a). The optical code (60a) is then read by the camera (10a) which can then read the necessary information needed to connect wirelessly to a network or a wireless access point (70a) and the remote control wirelessly. If the meeting participant wants to connect to several wireless devices, a camera or, for example, a smartphone, the procedure can be reversed. The camera (10a) can

display an optical code on the screen which can be read by the corresponding pattern recognition algorithm built into the remote control (20a) or the smartphone (20b). This method will make it easy to install a video conferencing system, which will not need a specialist necessary. In addition, the camera (10a) will include a "pairing button" that can be used in case the mechanism fails.

According to the inventors, this invention is the first wireless video conferencing system that only requires a wireless connection to connect a microphone, speakers or remote control. It is the first system where each of the units (10a and 20a) has the necessary technology to carry out a video conference. The devices also run the same operating system and have the ability to share resources for encoding and decoding audio and video between the devices (10a and 20a). The remote control is the first to have a graphical user interface, pressure-sensitive screen, microphone, speakers, and codec included in one assembly. As a result, the invention is the first video conferencing system that can be easily installed and used without the need for a specialist.

An additional comment on prior art: US576824 describes a similar system. However, the invention describes a table-mounted conference telephone with a keyboard, display and speaker. The device does not have a pressure-sensitive screen or a battery. The device is not portable, and requires cables (power and network cable) to function as intended. In addition, the patent states that the processing power for encoding video can be in one of the devices, and not both devices. This makes the invention less user-friendly, less redundant and less flexible than the invention described in this application, which has this functionality in both units. The patent also does not mention how to install this system, which is a clear barrier to adoption of the technology.

Claims (1)

Based on the description and attached figures, presentation of known technology, previous inventions and the obvious problems with known technology, the inventors have the following patent claims. 1. A method of installing a video conferencing system at a location, establishing contact with one or more other remote video conferencing system(s) at separate and remote locations, and conducting a video conference between said location(s), the former video conferencing system containing radio frequency circuit boards that can is used to connect a wireless network access point (70a) and a screen (30a) and several other video screens (30a), characterized in that the method consists of the following steps: a. mounting the camera unit (10a) in a position to be able to take pictures of meeting participants (80a) and connecting said camera unit to a video screen (30a); b. connecting the remote control unit (20a or 20b) to the camera unit (10a) and connecting one or more of these to a network such as the Internet through a wireless network access point (70a); c. communicating an IP address and other relevant information about the connection to said network, such as an SSID or MAC address from a remote control unit (20a or 20b) to the camera unit (10a) and vice versa, and in that way establish a connection between remote control unit (20a or 20b) and camera unit (10a), which enables two-way interaction between the units and the network, for example through a wireless network access point (70a) or directly between the units; d. with the camera unit (10a) capturing video images of meeting participants (80a), encoding these images with a codec built into the camera unit (10a) and transmitting coded video images to a remote other video conference endpoint or several video conference endpoints through a network such as the Internet; e. with the camera unit (10a), receiving coded video images, audio signals and/or data stream(s) from another remote video conference endpoint and decoding this information stream and transmitting decoded images to said video screen using the connection created and described in step a); f. with one of the units (10a, 20a or 20b) capturing audio signals from the meeting participants (80a) and synchronizing these as well as sending these signals together with video captured by the camera (10a) as described in step d) and at the same time receiving corresponding power from a remote location as described in step e); g. with one of the devices (10a, 20a or 20b), capture of data stream(s), such as presentation material, from one or more of the meeting participants' (80a) PC, hand-held device(s), and synchronization and reception of this data stream together with video and audio as described in step d) and reception of corresponding data stream(s) from remote locations as described in step e). 2. method according to claim 1, characterized in that step c) is characterized by a. in the remote control (20a or 20b), an optical code (60a) is generated with the information needed to connect to a network; b. display of said optical code (60a) on the screen of the remote control (20a); c. the meeting tent taker (80a) holds said remote control (20a) with optical code (60a) in the field of view of the camera unit (10a); d. the camera unit (10a), interprets the optical code (60a) and converts the information in the optical code into an SSID, MAC address or similar connection information and password, which enables the camera with this information to connect to a network, the Internet and the remote control; and then e. connect or "pair" the camera unit (10a) to said remote control unit (20a or 20b) and vice versa, to said network using any communication protocol; 3. Method that follows claim 2, characterized in that step c) consists of a. the camera unit (1 Oa) generates yet another optical code (60a) and presents said optical code (60a) on the video screen (30a); b. capturing said optical code (60a) with the camera of a wireless telephone (20b), or with the camera built into the remote control unit (20a); c. the remote control (20a or 20b) interprets the optical code and converts the information in the optical code to an SSID, MAC address or similar information, which enables the remote control to connect to said network, the Internet, and the camera unit (10a); and then d. connecting or "pairing" the meeting participant's wireless telephone (20b) to the camera (10a) and the network or a wireless Internet access point (70a); and e. capturing sound with the microphone(s) built into said meeting participant(s) phone(s) (20b) and communicating audio signals as described in claim 1. 4. method that follows claim 1, characterized in that step g) is characterized by a. the meeting participants (80a) upload presentation material, data files or data streams to a remote server (90a) b. the meeting participants (80a) use the remote control unit (20a or 20b) to retrieve said presentation material, data files or data streams from said remote server (90a) ) uploaded in step a); c. displaying said presentation material, data files or data streams on said remote control unit and at the same time on said video screen (30a) and using said presentation material, data files or data stream in a video conference, for example by using the method described in claim 1 step e) or claim 1 step f) ); d. the meeting participants (80a) use said remote control unit (20a, 20b) to navigate and change said presentation material, data files or data stream on both remote control units (20a and 20b) and the video screen (30a). 5th method, which is based on previous requirements, characterized by the fact that all connections and communication lines between all units and locations are wireless. 6th method, which is based on previous requirements, characterized by the fact that the only communication lines between the microphone, camera and codec are only wireless. 7th method, which is based on previous requirements, characterized by one or more of the units (10a, 20a, 20b) being powered by a built-in battery. 8th method, based on previous requirements, characterized in that one or more of the remote control units (20a or 20b) is a smartphone or tablet. 9. A video conference system for the meeting room consisting of at least two separate units which together can carry out a video conference, a camera (10a) and a remote control (20a), where the units communicate only by using wireless signals, the characteristic knows that; a. both devices (10a and 20a, 20b) connect wirelessly with each other and a network access point (70a), to a remote server (90a) or directly to the Internet; b. both devices (10a and 20a, 20b) have the capability and the necessary components to use any video communication protocol such as SIP, ITU H.32<*> and ITU H.26<*>; c. both devices (10a and 20a, 20b) have the necessary processing power, operating system and code capacity to carry out an HD (High Definition) video conference; d. both units (10a and 20a, 20b) have the opportunity to share the resources needed to carry out said video conference with each other; e. both devices (10a and 20a, 20b) run the same operating system; f. both units (10a and 20a, 20b) have the same type of processor; g. both devices (10a and 20a, 20b) use the same software for audio and video coding; h. both units (10a and 20a, 20b) have the necessary software and hardware for signal processing; i. both devices (10a and 20a, 20b) have wireless technology (such as Wi-Fi, Wi-Fi Direct or Bluetooth) which can connect directly or indirectly to one or more user input devices such as, for example, i. a microphone or more microphones, ii. a speaker or speakers, iii. a remote control or several remote controls (20a), iv. a smartphone or several smartphones (20b), v. a tablet or several tablets, vi. a computer or computers, vii. one or more of the aforementioned units in combination, viii. a device that combines one of the above functions in one device; j. both units (10a and 20a, 20b) are battery operated; k. both units (10a and 20a, 20b) are connected to a remote server (90a) for uploading, editing and downloading presentation material, data files or data streams; I. the devices (10a and 20a) can display and modify known data file types m. both devices (10a and 20a, 20b) are designed to be able to generate and display an optical code (60a) on the screen of the remote control device (20a, 20b) with the information described in claim 2; n. the camera unit (10a) is adapted to read an optical code (60a) described in claim 2; o. the remote control unit (20a and 20b) is adapted to read an optical code as described in claim 3; p. the camera unit (1 Oa) is adapted to display an optical code (60a) to a video screen described in claim 1; q. both units (10a and 20a, 20b) are installed according to the method described in claim 1. 10. A video conference camera for the meeting room (10a) with the necessary codec, processing power and wireless circuit boards built into one unit to carry out an HD video conference using the standards as for example SIP, ITU H.32<*>and ITU H.26<*>, the characteristic knows that; a. the device (10a) only uses wireless technology to o connect to a user input device such as a remote control, speaker, codec, or microphone; b. the device (10a) uses a method described in claim 2 to connect to a network or wireless network access point (70a) or remote control device (20a, 20b); c. the device (10a) connects to a display or monitor (30a) using wireless technology such as WiLink or WiFi Display; d. the device (10a) can be mounted on top of a display (30a), on a wall, or any flat surface (40a). 11. A remote control unit (20a) for user input or feedback in a video conference context that has a codec, microphone, speaker, graphical user interface or pressure-sensitive screen built-in characterized in that: a. the unit (20a, 20b) is battery powered; b. the device (20a, 20b) is connected to a camera using wireless technology; c. the device (20a, 20b) uses the method explained in claim 2 to connect to a network or wireless access point (70a) or camera (10a); d. the device (20a, 20b) uses adaptive echo cancellation or echo cancellation technology built into the microphone and speaker to reduce noise, feedback and interference; e. the device (20a, 20b) contains both hardware and software needed to carry out an HD video conference using standards such as SIP, ITU H32<*>or ITU H.26<*>; f. the device (20a, 20b) is a smartphone; g. the device (20a, 20b) is a tablet; h. the device (20a, 20b) is a computer; List of Figures FIGURE 1 ............................................ ................................................ ................................................ ................................. 30 FIGURE 2 .............. ................................................ ................................................ ................................................ .............. 30 FIGURE 3 ................................ ................................................ ................................................ ............................................ 30 FIGURE 4 .. ................................................ ................................................ ................................................ .......................... 31 FIGURE 5 ..................... ................................................ ................................................ ................................................ ....... 31 FIGURE 6 ....................... ................................................ ................................................ ................................................ ..... 32 FIGURE 8 .......................................... ................................................ ................................................ .................................... 33 FIGURE 9 ........... ................................................ ................................................ ................................................ ................. 33 FIGURE 10 .............................. ................................................ ................................................ ............................................... 33 FIGURE 11 34 FIGURE 12 ................................................ ................................................ ................................................ ............................ 34 FIGURE 13 ................... .......................................... ................................................ ................................................ .............. 34 FIGURE 14 35 FIGURE 15 .............................. ................................................ ................................................ .............................................. 36 FIGURE 16 . ................................................ ................................................ ................................................ ......................... 37 Figure description Figure 1 LifeSize video conference camera (US 805 4336) Figure 2 Video conference camera from Minrray Industry Co. Ltd Figure 3 Patent: NO 331163 Portable video conferencing system Figure 4 Web camera from Microsoft (left) (US 576 654) and Logitech (right) (US D507 007S) Figure 5 the invention (10a and 20a) with a monitor or display (30a) and a wireless access point (70a) Figure 6 System configuration with camera unit (IOa) mounted on top of a monitor (30a) and a remote control (20a) on a meeting room table (40a), and meeting participants (80a) and speakers (50a) Figure 7 System configuration with several input units (20b), meeting room table (40a), a monitor (30a), camera unit (10a) speakers (50a) Figure 8 The camera unit (10a) seen from the side Figure 9 The camera unit (10a) seen from the side Figure 10 The camera unit (10a) seen from the side side and mounted on a display Figure 11 The camera unit (10) standing on a surface or a table Figure 12 The remote control unit (20a) with microphone, speaker, and pressure-sensitive screen and graphical user interface Figure 13 The remote control unit (20a) seen from another angle Figure 14 Installation and configuration g of the invention by using an optical code to transmit wireless connection information without other user input. Figure 15 Installation and configuration of the invention using an optical code to transmit wireless connection information without other user input. Figure 16 System overview