Systems and devices for social communications based on light

FIELD: information technology.

SUBSTANCE: invention relates to systems based on light for transmission of information associated with formation of social communications. Illumination controllers controlling individually controlled illumination devices in a light-based system for the formation of the social communications are used in a combination with communication networks to identify and form remote social communications on the basis of light. In addition, visualisation controllers are used in a combination with visualisation infrastructures, visualisation actuators, localisation systems and identification systems to visually identify potentially social communications located nearby.

EFFECT: improving identification efficiency of people with similar interests, who are present nearby.

37 cl, 8 dwg

 

The technical field to which the invention relates

The present invention is directed in General to systems and devices for social communications on the basis of the light. More specifically, the present invention is directed to systems on the basis of light to transmit information associated with the formation of social ties.

The level of technology

Digital lighting technology, i.e. lighting based on semiconductor light sources such as light emitting diodes (LEDs), today offer a feasible alternative to traditional fluorescent lamps, gas discharge lamps high intensity incandescent lamps. Recent advances in LED technology along with its many functional advantages, such as the transformation in the field of high energy and optical efficiency, durability and lower operating costs, led to the development of effective and reliable sources of lighting with full spectrum, which provide many lighting effects. For example, devices that implement these light sources may include one or more LEDs, allowing the formation of different colors, for example red, green and blue, and a processor for independent power control of radiation led to the shaping is a variety of colors and light effects color changing, as explained in U.S. patent No. 6016038 and 6211626 included here by reference.

In addition, new developments in digital technologies have made real precise lighting control. Therefore, systems based on light are used today in order to visually convey information to people. For example, loyal customers waiting for seats in the restaurant are often the device search call that visually indicate when personnel are ready to plant.

While improvements in digital lighting technologies led to the emergence of precisely controlled lighting, huge and growing popularity of the Internet as a medium of communication has led to the creation of many web sites, social networks, made with the ability to meet the needs of people wishing to form social relationships. Despite providing many benefits to the people interested in the formation of distant social ties, such technologies of social networks based on web-technologies cannot effectively be integrated into existing institutions, for example, bars and clubs, which are designed to promote the formation of social bonds between people that are physically present in one location. Such social networks can't effect what UPE be integrated into existing social environment, because, among other reasons, they often require users to pay particular attention to the formation of distant social ties, making users unable to simultaneously engage in meaningful social interactions with people who are physically present around them. Therefore, people who want to form social ties, it remains to choose between public institutions, for example, bars or clubs, on the one hand, and using one or more existing social networking technologies, on the other hand.

As a result, there is an insufficient number of technological solutions that enable people to engage in meaningful social interactions with others by their physical presence, and simultaneously removed to form social ties. This is partly due to the fact that modern solutions made with the possibility to help people to form social connections, do not use at the same time improvements in other areas of technologies, such as controlled solid-state lighting and communication network. Therefore, there is a need in the art to combine improvements in the field of controlled solid-state lighting with improvements in the field of network communication.

VM is the extent to improvements in the field of network communications, developments in wireless communications and, more specifically, wireless broadband has made a reality wirelessly share full content data, for example, video data. Wireless broadband technologies, when used in combination with personal mobile electronic communication devices such as cell phones or personal digital devices today provide people almost instantly and dynamically share information about themselves.

Despite the availability of such technologies, at present there is no adequate solution of the problems concerning the identification of under time limits short-term social relations in public areas to identified people could participate in mutually interesting activities. For example, people who are traveling alone on business, you may need the company of other people with similar interests with whom you can participate in activities, for example, visiting a Museum or conduct of the party game of Golf. However, given the fact that (i) such persons may have only a few hours of free time and (ii) such people may not be able to plan your free time in advance technology available today social networks, to the E. are often designed without taking into account such time constraints, not offer a feasible solution in such circumstances.

Moreover, despite the fact that this is useful in finding long-term partners, traditional technology, social networks are not well suited to help people quickly identify and contact other people who (i) are in the same neighborhood and (ii) currently available (or available within a relatively short period of time)to participate in one or more mutually interested in entertainment. In addition, because the technology available today social networks do not use the possibility of controlled solid-state lighting, such technologies do not allow visual identification of individual potential social contacts present in the physical environment. Therefore, such technologies are often ineffective in crowded public areas such as lobbies of hotels and stations where they are likely to be necessary. As a consequence, there is an insufficient number of technological solutions that allow people in public places to instantly identify and communicate with the audience close to people who share similar interests.

The invention

Suavitel is herein explained and took into account that there is a significant need in the art to combine improvements in the field of controlled solid-state lighting with improvements in the field of network communication. In particular, applicants have found that modern technological solutions do not allow a person to engage in meaningful social interactions with people in the physical environment, but also simultaneously participate in the formation of distant social ties, and that the combination of improvements in the field of controlled solid-state lighting with improvements in the field of communication networks capable of providing, in particular, pre-emptive decisions under certain circumstances. These circumstances include cases relating to people wanting to participate in the formation of distant social ties while interacting with people who are closer. Therefore, the present invention is directed to the formation of systems and devices of social communication on the basis of light that allow users to communicate with potential remote social contacts while possible for these users to communicate with people who are closer.

Applicants have additionally found and took into account that in the data the first field of technology there is a real need to use improvements in the field of controlled solid-state lighting with improvements in wireless broadband. In this regard, the applicants have found that the ability to visually identify people is extremely important in certain circumstances. Such circumstances include cases where people want easy to identify in the often crowded public areas of potential short-term social relationships that are currently available to participate in mutually interesting activities. Applicants also found that visual identification of any potential social contact has the additional advantage of the availability of useful information, such as facial expressions and gestures potential social contact. This information can be highly relevant when making the final decision about whether to initiate or no social contact. Therefore, the present disclosure is also directed to systems and devices based on the lighting for the formation of social ties between the people interested in participating in mutually interested in the entertainment.

Many embodiments of the present invention comprise the use of managed VerDate inogo lighting in the identification and formation of social ties between people. For example, in many embodiments, the implementation of the lighting controller can transmit light setting, collecting information about the ambient lighting in a specific area of the institution, such as a bar. This light setup then the electron can be mapped to one or more common light settings in such remote locations as recreation areas in different institutions or different recreation areas in the same house. The communication network can then be used to transmit a signal to the people in these remote locations. This signal can transmit the potential of social communication on the basis of light through individually controlled lighting to temporarily change the ambient lighting in the matching remote locations. After that, the people in matching remote locations notified of the potential of social communication on the basis of light, such people can choose to transmit the information, the desire to form a social bond based on light through, for example, temporarily changing its overall light settings.

Because some embodiments of the invention use a common light settings to identify potential remote social ties, people using such options implemented the program, in order to form remote social ties, still can simultaneously participate in social interactions with others in their physical environment. Therefore, unlike existing systems that provide remote social relations, systems based on light according to different variants of the invention allow people how to interact with potential social connections in their physical environment, and simultaneously participate in the formation of distant social ties.

In General, according to various embodiment of the invention, the system on the basis of light for the formation of social connections comprises a first lighting controller, the first storage device, a processor, a communications network, the second lighting controller and the second storage device. The first lighting controller controls the set of individually controlled lighting devices in the lighting network and transmits the first signal indicating the ID of the first location and the second signal indicating the first localized light setting associated with the ID of the first location. The processor receives the second signal from the first light controller determines the first localized light setting. In the many variants of implementation, the processor then receives from the first storage device, at least one second identifier of a location associated with the second localized light setting, and there is a correlation between the second localized light setting and the first localized light setting. The communication network receives from the processor, at least one identifier of the second location, taken from the first storage device, and transmits a third signal that indicates the potential for communication on the basis of the light. According to some variants of the implementation of the third signal that indicates the potential for communication on the basis of the light may include a signal indicating the level of brightness associated with the second localized light setting. Many variations of the second lighting controller is a light controller that controls individually controllable lighting devices, the first at least one identifier of the second location, taken from the first storage device. The second lighting controller receives the third signal from the communication network and may transmit in response to a fourth signal that indicates interest in the communication on the basis of the light. The processor may then receive the fourth signal sent from the second controller of lighting to create the Association between identificat the rum first location and the second location in the second storage device. In some embodiments of the fourth signal indicating the interest in the communication on the basis of light contains signal indicating the level of brightness associated with the first localized light setting. Additionally, according to some variants of the fourth signal and the third signal must be separated in time by no more than the specified interval for the consideration of the fourth signal in response to a third signal that indicates interest in the communication on the basis of the light.

In some aspects of the invention, receiving from the first storage device, at least one second identifier of a location associated with the second localized light setting, embodies the first finding by a processor, at least one identifier of the second location in the first storage device and then check the second storage device in the presence of at least one identifier of the second location. If the processor finds at least one identifier of the second location in the second storage device, the processor according to some aspects of the invention may discard at least one identifier of the second location has already been identified, and return to vypolneniyasvoey first storage device, at least relative to the other of the second location associated with the second localized light setting, which has a correlation with the first localized light setting.

In some other aspects of the invention, the correlation between the first localized light setting and the second localized light setting can be based on the difference between the color associated with the first localized light setting, and the color associated with the second localized light setting. Correlation can also be based on the difference between the brightness associated with the first localized light setting, and the brightness associated with the second localized light setting.

According to some variants of the invention, the system on the basis of light for the formation of social ties provides lighting controller, the first storage device, the processor, the communication network and the second storage device. The light controller can control multiple individually controlled lighting devices in the lighting network and to transmit the first signal indicating the ID of the first location and the second signal indicating the first localized light setting. The processor may determine the first POC is Lozovanu light setting from the second signal, transmitted light controller, and to receive, from the first storage device, at least one second identifier of a location associated with the second localized light setting, which has a correlation with the first localized light setting. The communication network can then take at least one identifier of the second location from the processor and to transmit the third signal indicating the potential for communication on the basis of the light. In some embodiments, the implementation of the lighting controller may receive a third signal from the communication network, and may transmit, in response, the fourth signal indicating the interest in the communication on the basis of the light. The processor can also receive a fourth signal from the controller and lighting to create the Association in the second storage device between the identifier of the first location and at least one identifier of the second location.

According to many embodiments of the invention, the system on the basis of light for the formation of social ties contains the localization system, system identification, storage device, the controller visualization, infrastructure visualization and one or more actuators visualization. The localization system may determine the location and orientation of assets the new user system, and then to transmit the first signal that indicates the location and orientation of the user. The identification system may determine the user ID associated with the user, and to transmit a second signal indicating the user ID. The controller visualization can take the first and second signals, to extract from the storage device one or more user data associated with the user identifier, and generate a command to create the glow on the basis of a combination that includes user data, the user's location and orientation of the user. The controller visualization may optionally send a command to create glow in infrastructure visualization. Then the infrastructure visualization can control one or more actuators visualization, closest to the user, to display the glow that contains at least one or more user data associated with the user.

According to other variants of the invention, the controller visualization can take the first and second signals, to extract from the storage device one or more user data associated with the user identifier, and generate a command to create a glow on the basis of combination the AI, includes user data. The controller visualization may optionally send a command to create glow in infrastructure visualization. Then the infrastructure visualization can control one or more actuators visualization closest to the second user while the second user different from the user, the user ID which is used to retrieve one or more user data. Infrastructure visualization can then make the glow, containing at least one or more user data, displayed near the second user.

According to some aspects of the invention, the system on the basis of light for the formation of social ties that contains the localization system, system identification, storage device, the controller visualization, infrastructure visualization and one or more actuators visualization, described above, may further include an electronic mobile device closest to the user system. Electronic mobile device may transmit a third signal indicating a device identifier associated with the mobile electronic device. According to this invention, the localization system can determine the location and orientat the Yu mobile electronic device based on the third signal and can determine the location and orientation of the user based on the location and orientation of the mobile electronic device. Additionally, the identification system may determine the user ID based on the device identifier.

System on the basis of light for the formation of social relationships disclosed above, according to various aspects of the invention can additionally include one or more user interfaces for entering information. Such user interfaces can be used to introduce or remove from the backing store user data, for example, digital pictures and videos, which are, for example, personal interests or recent user interaction. Such user interfaces may also be used to introduce or remove from the storage device, user IDs, Association between user data and user IDs and information regarding the level of detail with which user data can be displayed in the glow of the user. Additionally, such user interfaces may be used to specify permissions to display specific user data. For example, by creating assotsiirovany between one or more configurable mapping rules and one or more user data in a storage device of the user the tel may be able to dynamically control with configurable mapping rules, present in the storage device, the circumstances under which certain user data may not be displayed. In some aspects of the invention, such user interfaces may also allow the user to select a graphical representation of illumination and view user data associated with the selected glow.

There are several advantages of using the system in accordance with the present invention. First, in contrast to currently available systems of social relations, the exemplary system allows the user to create remote social relations on the basis of light without appreciably reduce the ability for a user to simultaneously participate in social interaction with people, present in the physical environment of the user. Secondly, the approximate system, unlike traditional systems of social relations, allows the user to visually identify one or more potential social relations present in the physical environment of the user through a visual display next to every potential user of social relations, relevant information, such as the recently held entertainment. Thirdly, an exemplary system, in contrast with the existing systems of social relations, optionally warn the user about the vicinity of the potential social connections, using non-visual signals containing audio signals, for example, sound effects, or tactile signals, such as vibration, or a combination of signal types. Moreover, an exemplary system that enables users to visually identify and monitor potential social connection, allows users to take into account other relevant information, such as facial expressions and gestures or face potential social connection, when the decision to initiate or no social contact.

You should take into account that all combinations of the above principles and additional principles, more explained below (if such principles are not mutually inconsistent), considered part of the inventive subject matter disclosed herein. In particular, all combinations of the claimed subject matter shown at the end of this disclosure are considered part of the inventive subject matter disclosed herein. You should also take into account that the terms are clearly used in this document, which may appear in any disclosure incorporated by reference must match the value that is the most consistent with the specific principles, disclosed in this document.

Brief description of drawings

Fig. 1A illustrates a system on the basis of light for the formation of social ties according to variants of the invention, in which the system can use multiple lighting controllers.

Fig. 1B illustrates exemplary steps executed by one or more components included in a variant implementation of the system based on light, illustrated in Fig. 1A.

Fig. 2 illustrates a system on the basis of light for the formation of social relations according to some other variants of the invention, in which use the same lighting controller.

Fig. 3 illustrates a system on the basis of light for the formation of social ties according to other variants of the invention, which explained in detail the interaction of the system with its users.

Fig. 4 illustrates a system on the basis of light for the formation of social ties according to other variants of the invention, in which use of the glow.

Fig. 5 illustrates a system on the basis of light for the formation of social relations according to some versions of the invention, using one or more mobile electronic devices.

Fig. 6 illustrates a system based on light for creation the social relations according to other variants of the invention, in which controllers visualization and storage devices can be included in the electronic mobile device.

Fig. 7 illustrates a system on the basis of light for the formation of social ties according to other variants of the invention, comprising a glow.

Detailed description

The following is a detailed reference to illustrative embodiments of the invention, examples of which are shown on the attached drawings.

Fig. 1A illustrates a system 100 on the basis of light for the formation of social ties according to many variants of embodiment of the invention. The system 100 includes a controller 110 lighting, a processor 120, a storage device 130, a network connection 140, the controller 150 lighting and a storage device 160.

The controller 110 lighting controls, via line 106 communication, many individually controlled lighting 175 in the lighting network 170 and passes through the line 101 first signal indicating the ID of the first location and the second signal indicating the first localized light setting associated with the ID of the first location.

The term "light controller" is used herein generally to describe various devices associated with the one or more lighting arr the ditch. The controller includes a lighting controller may be implemented in a variety of ways (e.g., such as with specialized hardware)to perform various functions explained in this document. "Processor" is one example of a controller that uses one or more microprocessors that can be programmed using software (e.g., microcode)to perform various functions explained in this document. The controller can be implemented with or without the use of the processor, and can also be implemented as a combination of dedicated hardware to perform some functions, and a processor (for example, one or more programmable microprocessors and associated circuits)to perform other functions. Examples of the components of the controller that can be used in different variants of implementation of the present disclosure, include, but are not limited to, traditional microprocessors, application-specific integrated circuits (ASIC) and programmable gate arrays (FPGA).

Many individually controlled lighting 175 controlled by the controller 110 lighting, include, in some embodiments, the implementation of the system 100, one who does more lighting devices, which are installed in fixed locations and allow communication with the lighting controller via the lighting network 170. The lighting network 170 may include, for example, dedicated hardware line. In some other embodiments, the implementation of individually controllable lighting devices include one or more addressable lighting devices that communicate via the lighting network, which includes other types of communication lines, such as Ethernet or wireless network connection. Communication between the lighting controller and individually controllable lighting devices may include commands sent from the controller to the lighting in lighting. These commands can cause the one or more lighting devices 175, for example, to turn off, to decrease or increase the brightness or to modify the spectral power distribution of its coverage.

The term "lighting device" is used herein to refer to the implementation or layout of one or more lighting modules in a specific form factor, the Assembly site or building. The term "light module" is used herein to denote a device that includes one or more light sources of the same or different is cnyh types. This lighting device can be any of a variety of fastening devices for the source(s) of light, layouts and forms a casing/housing and/or configurations of the electrical and mechanical connections. Additionally, this lighting device may not necessarily be related (for example, to include, be connected to and/or combined into one unit) with various other components (e.g., control circuits)relating to the source(s) of light. "Led lighting device" means a lighting device that includes one or more led light sources, as explained above, single or in combination with other nesuliginami light sources.

It should be understood that the term "light source" means one or more of a variety of radiation sources, including, but not limited to, led light sources, the light sources with a filament (e.g., incandescent lamps, halogen lamps), fluorescent light sources, fluorescence light sources gas-discharge light sources high intensity (for example, sodium, mercury and metal halide lamp), lasers, other types of electroluminescent light sources, bioluminescent light sources (e.g., flare lamps), fluorescent candle East is czniki light (for example, gas lamps, arc coal sources of radiation), photoluminescent light sources (for example, gas-discharge light sources), cathodoluminescent light sources using electronic satiation, galvanoplasty light sources, crystallochemistry light sources, killminusnine light sources, thermoluminescent light sources, triboluminescent light sources, sonoluminescent light sources, radio-luminescent light sources, and luminescent polymers.

As used in this document for the purposes of this disclosure, it should be understood that the term "led" includes any electroluminescent diode or other type of system based on the injection/transfer media, which allows the formation of radiation in response to an electrical signal. Thus, the term "led" includes, but not limited to, various patterns based on semiconductors that emit light in response to current, light emitting polymers, organic light emitting diodes (OLED), electroluminescent strips, etc. In particular, the term "led" means light emitting diodes of all types (including semiconductor and organic light emitting diodes)that can be executed with the option to generate radiation in one or bol is e spectra from the spectrum of infrared radiation, the spectrum of ultraviolet radiation and different parts of the visible spectrum (as a whole, which includes the emission wavelength from about 400 nanometers to about 700 nanometers). Some examples of LEDs include, but are not limited to, various types of infrared LEDs, ultraviolet LEDs, red LEDs, blue LEDs, green LEDs, yellow LEDs, amber LEDs, orange LEDs and white LEDs (additionally explained below). You should also take into account that the LEDs can be configured and/or operated to generate radiation having different width of the spectrum (for example, full width at half maximum brightness, or FWHM) for the spectrum (for example, a narrow spectrum width, wide width of the spectrum) and many of the dominant wavelengths within this General classification of colors.

For example, one implementation of an led is made with the ability to actually form white light (for example, white LEDs), can include some crystals that respectively emit different spectra of electroluminescence, which in combination are mixed to form a virtually white light. In another implementation, the led white light can be associated with Cristallago the rum, which converts an electroluminescence having a first spectrum, the second spectrum different. In one example of this implementation, the electroluminescence having a relatively short wavelength range and with a narrow width, "pumps" crystalliser, which, in turn, emits radiation with a longer wavelength, has a slightly wider range.

Also it should be understood that the term "led" does not limit physical and/or electrical type of the led housing. For example, as explained above, the led can mean one light-emitting device having multiple chips, which are made with the ability, respectively, to emit different spectra of radiation (e.g., which can be controlled separately or not). In addition, the led may be associated with phosphor, which is considered an integral part of the led (for example, some types of white LEDs). In General, the term "led" may mean the LEDs in the housing, the LEDs without housing, surface mount LEDs, LEDs for installation on Board, the LEDs in the T-shaped buildings, the LEDs in buildings with radial pins, LEDs in scattering power buildings, LEDs, includes some type of vessel and/or an optical element (for example, light diffusing lens), etc./p>

This lighting device can be configured to generate electromagnetic radiation within the visible spectrum outside of the visible spectrum or in combination of both. Therefore, the terms "light" and "radiation" are used interchangeably in this document. Additionally, the lighting device may include as an integral component of one or more filters (e.g., color filters, lenses or other optical components. In addition, it should be understood that the lighting devices can be implemented for a variety of applications, including, but not limited to, indication, display and/or lighting. The light source is a light source, which, in particular, is configured to generate radiation having a sufficient brightness to effectively illuminate an internal or external space. In this context, "sufficient brightness" means sufficient power radiation in the visible spectrum, formed in the space or environment (unit "lumens" is often used to represent the full light output of the light source in all directions from the point of view of the radiation power or "luminous flux")to provide ambient light (i.e. light, which can vosprinimat the Xia indirectly and which, for example, can be reflected from one or more of a number of intermediate surfaces before perception fully or partially).

The term "range" should be understood as meaning any one or more frequencies (or wavelengths) radiation generated by one or more lighting devices. Accordingly, the term "spectrum" refers to the frequency (or wavelength) not only in the visible range, but also the frequency (or wavelength) in the infrared, ultraviolet and other areas full of the electromagnetic spectrum. In addition, this range can have a relatively narrow width of the spectrum (e.g., FWHM, with essentially several frequency or wave components) or a relatively wide width of the spectrum (several frequency or wave components having different relative intensity). You should also take into account that this range may be the result of mixing two or more other spectrums (e.g., mixing of the radiation, respectively, emitted from the multiple light sources). The term "spectral power distribution" should be understood as meaning the power per unit area per unit wavelength of light or share per wavelength in any radiometric value (for example, radiant energy, radiant flux, intense is vnesti radiation, energy brightness, energy lighting, energy luminosity or islocalhost).

For the purposes of this disclosure, the term "color" is used interchangeably with the term "spectrum". However, the term "color"is used to mean primarily a property of the radiation, which is perceived by the observer (although this application has no intention to limit the scope of this term). Accordingly, the term "different colors" implicitly means of numerous spectra having different spectral components and/or width of the spectrum. You should also take into account that the term "color" may be used in connection with the white and non-white light.

As is illustrated in Fig. 1A, the system 100 based on the light processor 120 receives data from the controller 110 lighting, through the line 101 communication, the first signal indicating the ID of the first location and the second signal indicating the first localized light setting. The processor then determines the first localized light setting from the second signal and receives data from the storage device 130 through the communication line 102, at least one second identifier of a location associated with the second localized light setting, while the second localized light astronomie correlation with the first localized light setting.

The term "processor" as used herein refers to any scheme that handles arithmetic and logical instructions, such as the Central processor of the computer, allowing the processing of information. Embodiments of the processor 120 include, but are not limited to, traditional microprocessors, application-specific integrated circuits (ASIC) and programmable gate arrays (FPGA).

The storage device 130 of the system 100 based on the light associating at least the ID of the first location with the first localized light setting. Embodiments of the storage device 130 and a storage device 160 include various types of storage media such as volatile and non-volatile computer storage device, such as RAM, PROM, EPROM and EEPROM, floppy disks, CD-ROMs, optical disks, magnetic tape. In some implementations, the media data may be encoded using one or more programs that allow you to execute on the processor. Various media can be portable, so that one or more stored programs can be loaded into the processor to implement various aspects of the present invention, are explained in this document. The terms "program the MMA" or "computer program" is used herein in a General sense, to mean any type of native code (e.g., software or microcode)that can be used to program one or more processors.

The network connection 140 of the system 100 on the basis of light is the network used by the various components of the system 100 on the basis of light to transmit information. The communication network receives through the line 103 communication, at least one identifier of the second location from the processor 120. As is illustrated in Fig. 1A, the communication network also passes through line 104 connection, the third signal indicating the potential for communication on the basis of the light. Embodiments of the network connection 140 include, for example, a wired network, a wireless network or a combination of wired and wireless networks. Moreover, the communication network may comprise a variety of technologies, such as the relationship in the infrared range, the fiber-optic connection or network technology such as Ethernet. The communication network may include a local area network (LAN) or wireless local area network (WLAN). For example, the communication network may include wireless communication between the processor 120 and the controller 150 lighting, combined with the technology of permanent wired connection between the lighting controller is occurring and one or more individually controllable lighting devices, managed lighting controller.

The term "network" when used herein means any combination of two or more devices (including lighting controllers or processors), which simplifies transportation information (for example, device management, data storage, data exchange, etc) between any two or more devices and/or between multiple devices connected to the network. It should readily be taken into account that different implementations of networks suitable for connection of multiple devices may include any of a variety of network topologies and use any of a variety of communication protocols. Additionally, in various networks according to the present disclosure of any connection between the two devices can provide a dedicated connection between two systems or, alternatively, the unselected connection. In addition to the transfer of the information intended for these two devices, such unselected connection can transfer information, not necessarily designed for any of these two devices (for example, open a network connection). Furthermore, it should readily be taken into account that different network devices, as explained in this document, can use one or more of wireless, wire the s/cable and/or fiber-optic communication lines, to simplify the transport of information across the network.

The controller 150 of the lighting according to the system 100 based on the light controls, via line 107 connection, individually controlled lighting 185 closest to the location of the associated at least one identifier of the second location. The controller 150 lighting receives, from the network connection 140, through the line 104 connection, the third signal indicating the potential for communication on the basis of the light. Lighting controller then transmits, in response, via the communication network, the fourth signal indicating the interest in the communication on the basis of the light. The light controller may be any type of light controller, described in the controller 110 of the lighting. The processor receives from the network connection 140, through the line 103 communication, the fourth signal indicating the interest in the communication on the basis of the light. The processor then creates, through the line 105 communication Association in the storage device 160 between the identifier of the first location and at least one identifier of the second location.

According to some variants of the invention, the system 100 may include a first user interface for the transmission of localized light setting in the controller 110 of the lighting and the second user interface to transmit localise the bathrooms are light settings in the controller 150 lighting. The term "user interface" when used in this document means the interface between a human user or operator and one or more devices that enables communication between the user and the device(s). Examples of user interfaces that can be used in various implementations of the present disclosure, include, but are not limited to, switches, potentiometers, buttons, artificial discs, sliders, mouse, keyboard, keypad, various types of game controllers (e.g., joysticks), ball mice, display screens, various types of graphical user interfaces (GUI), touch screens, microphones, and other types of sensors that can take some form formed man of the control action and generate a signal in response.

In other embodiments of the invention, comprising a system 100, the correlation between the first localized light setting and the second localized light setting can be based on the difference between the first color associated with the first localized light setting and the second color associated with the second localized light setting. The correlation between the first and second localized light setting and can also be based on the difference between the first brightness, associated with the first localized light setting and the second brightness associated with the second localized light setting.

In some embodiments of the invention, comprising a system 100, the Association between the identifier of the first location and at least one identifier of the second location occurs when the correlation between the first localized light setting and the second localized light setting is no more than the existing or specified threshold difference between the first color associated with the first localized light setting and the second color associated with the second localized light setting. The Association may also be performed when the correlation between the first and second localized light setting is no more than the existing or specified threshold difference between the first brightness associated with the first localized light setting and the second brightness associated with the second localized light setting. Additionally, the threshold values associated with the correlation between the first localized light setting and the second localized light setting, can be adjustable.

According to some variants implement the surveillance system 100 third signal, indicates the potential for communication on the basis of the light may include a signal indicating the level of brightness associated with the second localized light setting. Additionally, the fourth signal indicating the interest in the communication on the basis of the light may include a signal indicating the level of brightness associated with the first localized light setting.

In other embodiments, implementation of the system 100 after creating by the processor 120 of the Association in the storage device 160 between the identifier of the first location and the second location, the network connection 140 may receive the fifth signal indicating a third localized light setting from the controller 110 of the lighting. In some embodiments, the implementation after determining that the storage device 160 contains the Association between the identifier of the first location and the second location, the network 140 may transmit a fifth signal to the controller 150 lighting. People using the system 100 in order to identify potential relations on the basis of the light, therefore, can continue to communicate with such identified compounds, as soon as the desired relationship on the basis of light recorded. In some embodiments, the implementation of the system is we are 100 third localized light setting can contain light setting sets the selected color and brightness. In other embodiments, implementation of the third localized light setting can contain a light setting that specifies the selected sequence of colors and associated brightness. In still other embodiments, the implementation of the third localized light setting can symbolize the connection element containing the character in the alphabet, a number, a word or phrase.

According to some variants of the implementation of the system 100 after creating by the processor 120 of the Association in the storage device 160 between the identifier of the first location and the second location, the network connection 140 receives a signal from the controller 110 of the lighting. According to some variants of implementation of the additional signal may be pointing data containing a text character, a static image, a smell, a video file and an audio file. Additionally, after determining that the storage device 160 contains the Association between the identifier of the first location and the second location, the processor may send a signal to the controller 150 lighting.

Fig. 1B illustrates aspects of embodiments of the system 100 that are involved in the detection of potential links over the light. As pollastrini the ANO in Fig. 1B, the first storage device is requested, at least on the subject of one of the second location associated with the second localized light setting, while the second localized light setting is correlated with the first localized light setting (1100). Predefined or existing criteria correlation can be used to determine whether the second localized light setting correlation with the first localized light setting. Requested the first storage device may be a storage device 130. If the request to the first storage device is not able to identify the ID of the second location associated with the second localized light setting and having a correlation with the first localized light setting, potential relations on the basis of light is not detected and the criteria specified correlation can be mitigated (1200). On the other hand, if the request to the first storage device leads to the identification of at least one identifier of the second location, the second storage device is queried to determine whether the second storage device, at least one identifier of the second location (1300). Zaprosi UEMOA second storage device may be a storage device 160. If the query of the second storage device leads to the indication that the second storage device does not include at least one identifier of the second location, it is found that the potential relationship based on the light there, and at least one identifier of the second location may be transferred (1400) processor 120. On the other hand, if the request to the second storage device leads to the indication that the at least one identifier of the second location already exists in the second storage device, the request is canceled and the first storage device is again requested, at least for one of the next ID of the second location associated with the next second localized light setting, while following the second localized light setting is correlated with the first localized light setting (1100).

Fig. 2 illustrates a system 200 on the basis of light for the formation of social relations according to some versions of the invention. The system 200 includes a controller 210 lighting, a processor 220, a storage device 230, the network 240 communication and storage device 250.

The controller 210 of the illumination according to the system 200 based on the light controls the set individually the controlled lighting devices in the lighting network and transmits, through the line 201 communication, the first signal indicating the ID of the first location and the second signal indicating the first localized light setting. The first localized light setting is illuminated by the setting associated with the ID of the first location. The controller 210 of the light can be any type of light controller, described in the controller 110 of the illumination in Fig. 1A.

The storage device 230 of the system 200 based on the light associating at least the ID of the first location with the first localized light setting. The storage device 230 may be any type of storage device, described in the storage device 130 of Fig. 1A.

The processor 220 of the system 200 on the basis of the light determines the first localized light setting from the second signal received from the controller 210 lighting. The processor 220 also receives data from the storage device 230 through the communication line 202, at least one second identifier of a location associated with the second localized light setting, while the second localized light setting is correlated with the first localized light setting. The processor 220 can be any type of processor, described in the processor 120 of Fig. 1A.

As p is illyustrirovano in Fig. 2, the network 240 connection takes at least one identifier of the second location from the processor 220 via line 203 communication. The network 240 connection also passes through line 204 connection, the third signal indicating the potential for communication on the basis of the light. The network 240 may be any type of communication network, described in the network connection 140 of Fig. 1A.

The controller 210 of the lighting system 200 based on the light takes through the line 204 connection, the third signal indicating the potential for communication on the basis of the light, and passes the response through the line 201 communication, the fourth signal indicating the interest in the communication on the basis of the light. The processor 220, receiving a fourth signal from the controller 210 lighting, creates an Association in the storage device 250 through line 205 communication between the ID of the first location and at least one identifier of the second location.

According to some variants of the implementation of the system 200 based on the light system 200 additionally includes at least the first user interface and at least a second user interface for the transmission of light settings in the controller 210 lighting. The first and second user interfaces, not shown in Fig. 2, can be any type of user interface described with regard to system 100 based on the light Phi is. 1A.

In various embodiments, the implementation of the system 200 based on the light after creating by the processor 220 of the Association in the storage device 250 between the identifier of the first location and the second location, the controller 210 of the light transmits a signal indicating the ID of the first location, and another signal indicating a third localized light setting associated with the ID of the first location. After determining that the storage device 250 contains the Association between the identifier of the first location and at least one identifier of the second location, and after receiving the signal indicating the ID of the first location and the third localized light setting, the controller 210 lighting controls many individually controlled lighting devices, not shown, at the location of the associated at least one identifier of the second location. The light controller controls the set of individually controlled lighting fixtures closest to the location of the associated at least one identifier of the second location, so that lighting create ambient lighting according to the third localized light us is Royce. Individually controllable lighting devices can be any type individually controlled lighting devices described with respect to the system 100 on the basis of light Fig. 1A.

According to some other variants of the implementation of the system 200 based on the light after creating by the processor 220 of the Association in the storage device 250 between the identifier of the first location and the second location, the controller 210 of the light transmits a signal indicating the ID of the first location, and another signal indicating data. The data may contain at least one of the following: a text character, a static image, a smell, a video file and an audio file. After determining that the storage device 250 contains the Association between the identifier of the first location and at least one identifier of the second location, the light controller then receives the signal indicating at least one identifier of the second location, and another signal indicating data.

Fig. 3 illustrates a system 300 on the basis of light for the formation of social ties according to various embodiment of the invention. The system 300 includes a controller 310 lighting, a processor 320, a network 330 communication, a storage device 340, USB circuits the p 350 lighting, the storage device 360, one or more individually controlled lighting 370-1, the user interface 370-3, one or more individually controlled lighting 360-1 and user interface 360-3.

The controller 310 lighting controls one or more individually controllable lighting devices 370-1 in the lighting network. The user 370-2, located near lighting 370-1, may enter the first localized light setting through communication with the user interface, 370-3. The user 370-2 can communicate with the user interface 370-3 through the line 311 connection. The controller 310 of the light can take through the line 312 connection, the first localized light setting and continue to manage lighting 370-1 so that they create ambient lighting according to the first localized light setting. The controller 310 of the light can also pass through line 301 connection, the first signal indicating the ID of the first location and the second signal indicating the first localized light setting. The controller 310 lighting may be any type of light controller, described in the controller 110 of the lighting Fig. 1A.

The processor 320 receives, via line 301 connection, the first signal and the second signal from the controller 310 lighting, specifies the first localized light setting from the second signal and receives, via line 308 communication from the storage device 340, at least one second identifier of a location associated with the second localized light setting, while the second localized light setting is correlated with the first localized light setting. The processor 320 may be any type of processor, described in the processor 120 of Fig. 1A.

The storage device 340 associating at least the ID of the first location with the first localized light setting. The storage device 340 may be any type of storage device, described in the storage device 130 of Fig. 1A. Network 330 connection receives data from the processor 320 through line 302 connection, at least one identifier of the second location and transmits a third signal that indicates the potential for communication on the basis of the light. The network 330 may be any type of communication network, described in the network connection 140 of Fig. 1A.

The controller 350 lighting, the location, the associated at least one identifier of the second location, receiving from the network 330 communication through the line 304 connection, the third signal indicating the potential for communication on the basis of the light. In some embodiments done by the means of the system 300, the third signal may include a signal indicates the increase in brightness associated with the second localized light setting. In such scenarios, the implementation of the controller 350 lighting can be controlled individually controllable lighting devices 360-1, closest to the location identified by at least one identifier of the second location, so that the increase in brightness, set the third signal, reflected in ambient light at the location identified by the at least one identifier of the second location. The user 360-2, at the location identified by the at least one identifier of the second location detecting an increase in the brightness of the ambient light and recognize that this is an attempt to build social ties based on light, in response, may modify the second localized light setting. The controller 350 lighting can then transmit, in response, via the network 330 connection, the fourth signal indicating the interest in the communication on the basis of the light. The processor 320, receiving the fourth signal, via line 302 connection, then can create, through line 303 communication Association in the storage device 360 between the identifier of the first location and at least one identifier of the second location. The controller 350 OS is edenia may be any type of controller, lighting, described with regard to the controller 110 lighting Fig. 1A.

Fig. 4 illustrates a system 400 on the basis of light for the formation of social ties according to many variants of embodiment of the invention. The system 400 includes a system 410 localization system 420 identification, infrastructure 430 visualization, the controller 440 visualization, a storage device 450 and actuators 460 rendering.

The system 410 localization determines the location and orientation associated with the user 480, and passes through line 401 connection, the first signal indicating the location and orientation of the user 480. The localization system may use various technologies to determine location of the user, which includes sensors, RFID tags, GPS technology and triangulation. The localization system may also use various technologies to determine the orientation of the user, and various technologies include technologies using gyro.

The system 410 localization can be implemented in a variety of ways (for example, using specialized hardware, software or combination of hardware and software)to perform various functions explained in this document. The localization system can be implemented is by a label or without the use of the processor, and can also be implemented as a combination of dedicated hardware to perform some functions, and a processor (for example, one or more programmable microprocessors and associated circuits)to perform other functions. The localization system may also be implemented using multiple modules made with a specific function and exchange of information within the localization system, as well as with external entities.

The identification system 420 determines the user ID associated with the user 480, and passes through line 402 connection, the second signal indicating the user ID. According to some variants of the implementation of the identification system 420 determines the user ID associated with the user 480, through the use of technology to recognize the unique characteristics of the user 480 and scan the storage device for the user ID associated with unique characteristics. Technology to recognize the unique characteristics include the recognition of persons.

The identification system 420 can be implemented in a variety of ways (for example, using specialized hardware, software, or whom is inali hardware and software), in order to perform various functions explained in this document. The identification system may be implemented with or without the use of the processor, and can also be implemented as a combination of dedicated hardware to perform some functions, and a processor (for example, one or more programmable microprocessors and associated circuits)to perform other functions. The identification system may also be implemented using multiple modules made with a specific function and share information within the system 420 identification, as well as with external entities.

Storage device 450 associating at least the user identifier with one or more data 452 user. Storage device 450 may be any type of storage device, described in the storage device 130 of Fig. 1A.

The controller 440 visualization takes the first signal indicating the location and orientation of the user 480, and the second signal indicating the user ID. The controller 440 visualization then retrieves, via line 403 communication from the storage device 450, one or more user data associated with the user ID for the user 480. The controller 440 visa is Itachi, according to many variants of implementation also generates a command to create a glow on the basis of a combination containing one or more user data and one or more of the following: the user's location and orientation of the user. According to some variants of the implementation of one or more user data includes one or more of the following: recent user interaction, future plans and user personal interests of the user.

The controller 440 rendering passes through line 404 connection, command, create glow in infrastructure 430 visualization to control, via line 405 connection, one or more actuators 460 visualization, closest to the user 480, for visual display of glow 470. In various embodiments, the implementation of infrastructure visualization can provide to the controller 440 visualization, through line 404 of communications, information regarding available infrastructure 430 visualization. The controller 440 visualization may use the information regarding the capabilities of the infrastructure 430 visualization to form a team to create the effect, which takes into account the capabilities of the infrastructure 430 visualization. For example, the controller visualization can form a team to create the effect, which uses the data of the user in the form of video data, if the infrastructure visualization has the ability to display such data. According to many variants of implementation glow 470 contains at least one or more user data associated with the user 480. According to some variants of implementation glow 470 contains a picture, consistency or color of light. Figure, consistency or color of light in addition, you can pass this value as the degree of interest in the formation of social ties and interest in participating in a particular event. The system 400 may further comprise, according to various options for implementing a user interface for associating the value with a pattern, consistency or color of light displayed in the glow 470, and to retrieve the value associated with such pattern, sequence or color of light. For example, the user may use the user interface system 400 to retrieve the value associated with the glow that appears near another user.

The controller 440 visualization can be implemented in a variety of ways (such as with specialized hardware, software or combination of hardware and software)to perform various functions, Posnan the e in this document. "Processor" is one example of the controller visualization that uses one or more microprocessors that can be programmed using software (e.g., microcode)to perform various functions explained in this document. The controller visualization can be implemented with or without the use of the processor, and can also be implemented as a combination of dedicated hardware to perform some functions, and a processor (for example, one or more programmable microprocessors and associated circuits)to perform other functions. The controller 440 visualization can also be implemented using multiple modules made with a specific function and share information inside the controller 440 visualization as well as with external entities.

According to some variants of the implementation of the system 400 infrastructure 430 advanced visualization may control one or more sensory devices 465 to display the glow 470. Touch actuators may include sound actuators and olfactory devices.

According to other variants of the implementation of the system 400 one or more data 452 user is I, retrieved from the storage device 450 may include a first element 454 data and the second element 456 data. The first data item may be assigned a higher rating relevance than the second data item, and infrastructure 430 visualization can control devices 460 visualization so that the first data item is displayed to a greater extent in the glow 470 than the second data element.

According to other variants of the implementation of the system 400 one or more data 452 user, retrieved from a storage device 450, optionally can be associated with metadata that includes temporal data. One or more data 452 user associated with the user 480 may also include at least a first data element associated with the first metadata and the second data element associated with the second metadata. The first metadata and the second metadata may specify that the first data item is newer than the second data item. The controller 440 visualization may, in some embodiments, the implement to form a team of new light transmitted through line 404 link, through additional use of the first and second metadata, so that the glow 470 selects the first item of data relative to utoro what about the data element.

In various embodiments, the implementation of system 400 actuators 460 visualization may include individually controllable lighting devices in the lighting network, displays, projectors, and pixel length of the cell. According to some variants of the implementation of the system 400 Executive visualization devices may also be present on surfaces such as electronic device worn by the user 480.

According to some variants of the implementation of the system 400 glow 470 may include at least one of the following: monochrome backlit, multicolor light drawings, images, and videos. In some other embodiments, the implementation of the system 400, the controller 440 visualization can generate and send a command to turn off the glow. Infrastructure 430 visualization can take the team off lighting and control devices 460 visualization, closest to the user 480, so that the glow 470 becomes invisible.

According to some other variants of the invention, the system 400 includes a mobile electronic device, not shown, is nearest to the user 480. Electronic mobile device may transmit a signal indicating its own device identifier, and may transmit another signal, specify the store location and orientation of the mobile electronic device. The system 410 localization may receive a signal that indicates the location and orientation of the mobile electronic device, and to determine the location and orientation of the mobile electronic device. The localization system may also determine the location and orientation of the user based on the location and orientation of the mobile electronic device. The identification system 420 may receive a signal indicating the ID of the device to determine the device identifier for the mobile electronic device to determine the user ID for the user 480 based on the device identifier.

According to various embodiment of the invention, the system 400 further comprises one or more user interfaces 482 to update information in a storage device 450, add information in the storage device 450, or delete information from the storage device 450. Information, modified, added or deleted, may include user data, user IDs, Association between data users and user IDs and permission to display user data. Permission to display user data may contain at least one Association between one and more configurable mapping rules and one or more user data in the storage device 450. One or more configurable mapping rules can control the circumstances under which one or more user data can be displayed as part of the glow 470.

According to some variants of the implementation of the system 400, the controller 440 visualization generates a command to create glow advanced on the basis of automatically determining a display of one or more user data associated with the user 480. Automatic determination may include determining whether associated or not one or more user data with rule display that displays one or more user data. For example, if the policy of the display limits the display of certain user data in certain types of locations, team creation of light can be formed on the basis of automatically determining that the limited user data should not be used in creating the glow.

According to some other variants of the implementation of the system 400 480 user can be tracked. Monitoring may include periodic determination of the updated location or the updated orientation of the user and the periodic transmission of the signal indicating the updated location and about blennow the orientation of the user, through a system 410 localization. Tracking may also include a periodic signal indicating the updated position and the updated orientation of the user 480, and periodic formation of the new team create the glow advanced on the basis of the updated location or the updated orientation of the user by the controller 440 rendering.

Fig. 5 illustrates a system 500 based on the light for the formation of social relations according to some other variants of the invention. As is illustrated in Fig. 5, the system 500 includes a mobile electronic device 520, the system 530 localization system 540 identification, the controller 550 visualization, storage device 560, infrastructure 570 visualization and actuators 580 rendering.

Electronic mobile device 520 that is nearest to the user 510, transmits a signal indicating a device identifier for the mobile device 520. Exemplary embodiments of an electronic mobile device 520 includes a mobile phone, an SMS device, personal digital device, the BLACKBERRY, the IPHONE and the device includes a programmable RFID tag.

System 530 localization receives, via line 501 communication signal indicating identify icator device for the mobile device 520, and on the basis of this signal determines the location and orientation of the mobile device 520. System 530 localization optional defines the location and orientation associated with the user 510, based on the location and orientation of the mobile device 520. The localization system then transmits a signal indicating the location and orientation of the user 510. According to some variants of the implementation of the localization system determines the location of the mobile device using one or more technologies such as GPS, using GPS, triangulation, analysis of signal power and technology-based accelerometer. System 530 localization can be any type of localization system described in relation to system 410 localization Fig. 4.

System 540 identification receives, via line 502 communication signal indicating a device identifier for the mobile device 520, and determines the user ID associated with the user 510, based on the device identifier for the mobile device 520. System 540 identify additional transmits a signal indicating the user ID. System 540 identification may be any type of identification system described in relation to system 420 identification Fig. 4.

The storage device 560 associating, by at least the user ID for the user 480 with one or more user data. The storage device 560 may be any type of storage device, described in the storage device 130 of Fig. 1A.

The controller 550 visualization receives, via line 503 communication signal indicating the location and orientation of the mobile device 520. The controller 550 visualization also receives, via line 504 communication signal indicating the user 510 user ID, retrieves from the storage device 560 via line 505 communication, one or more user data associated with the user ID, and generates a command to create a glow on the basis of a combination containing one or more user data and one or more of the following: a location of the user 510 and the orientation of the user 510. The controller visualization also passes through line 506 connection, command, create the glow. Infrastructure 570 visualization takes the team to create the glow and controls, via line 507 connection, one or more actuators 580 visualization, which is closest to the user 510. Actuators 580 visualization display a visual glow 590, containing at least one or more user data associated with the user is the motor 510. The controller visualization can be any type of controller, visualization, described in the controller 440 visualization in Fig. 4.

Fig. 6 illustrates a system 600 on the basis of light for the formation of social relations according to some other variants of the invention. As is illustrated in Fig. 6, the system 600 includes at least an electronic mobile device 630, the system 640 identification system 650 localization, the controller 630-1 visualization, storage device, 630-2, infrastructure 660 visualization and actuators 670 rendering.

Electronic mobile device (mobile device) 630 that is nearest to the user 610 transmits the signal indicating the device identifier for the mobile device 630. Mobile device 630 includes a controller 630-1 visualization and storage device 630-2. Mobile device 630 may be any type of mobile electronic device described relative to the mobile electronic devices 520 of Fig. 5. The controller 630-1 visualization can be any type of controller, visualization, described in the controller 440 visualization Fig. 4. Storage device 630-2 may be any storage device described relative to the storage device 130 of Fig. 1A.

System 650 localization is animal signal, specifies the device identifier for the mobile device 630, and on the basis of this signal determines the location and orientation of the mobile device 630. The localization system additionally determines the location and orientation for the user 610 based on the location and orientation of the mobile device 630 and transmits, via line 601 communication signal indicating the location and orientation of the user 610. System 650 localization can be any type of localization system described in relation to system 410 localization Fig. 4.

The system 640 identify accepts, via line 602 communication signal indicating a device identifier for the mobile device 630, and determines the user ID associated with the user 610, based on the device identifier for the mobile device 630. The identification system additionally passes through line 602 communications, the signal indicating the user ID associated with the user 610. The system 640 identification may be any type of identification system described in relation to system 420 identification Fig. 4.

The controller 630-1 visualization included in the mobile device 630 receives the signal indicating the location and orientation of the user 610, receives the signal indicating the user ID, Assoc the new user 610, and retrieves from the storage device 630-2, also included in the mobile device 630, one or more user data associated with the user ID associated with the user 610. The controller 630-1 visualization also generates a command to create a glow on the basis of a combination containing one or more user data and one or more of the following: the user's location 610 and orientation of the user 610. Mobile device 630 then passes through line 603 of communication, the command to create glow in infrastructure 660 visualization. Infrastructure 660 visualization then controls, via line 604 regard, one or more actuators 670 visualization, which is closest to the user 610. Actuator 670 visualization display a visual glow 620 containing at least one or more user data associated with the user 610. The controller 630-1 visualization can be any type of controller, visualization, described in the controller 440 visualization Fig. 4.

Fig. 7 illustrates a system 700 on the basis of light for the formation of social relations according to some versions of the invention. As is illustrated in Fig. 7, the system 700 includes a system 710 localization system 720 identification, controller 730 visualization, the storage device 740, infrastructure 750 visualization, one or more actuators 760 visualization and one or more actuators 770 rendering.

The system 710 localization determines the location and orientation associated with the user 770-2, and passes through line 701 communication signal indicating the location and orientation of the user 770-2. The system 710 localization also determines the location and orientation of the user 760-2 and passes through line 701 connection, another signal that indicates the location and orientation of the user 760-2. The system 710 localization can be any type of localization system described in relation to system 410 localization Fig. 4.

The system 720 identification specifies the user ID associated with the user 770-2, and passes through line 702 communications, the signal indicating the user ID associated with the user 770-2. The system 720 identity also determines the user ID associated with the user 760-2, and passes through line 702 communications, the signal indicating the user ID associated with the user 760-2. The system 720 identification may be any type of identification system described in relation to system 420 identification Fig. 4.

The storage device 740 composed of the plans, at least the user ID for the user 770-2 with one or more user data and at least the user ID for the user 760-2 with one or more user data. The storage device 740 can be any type of storage device, described in the storage device 130 of Fig. 1A.

The controller 730 visualization receives the signal indicating the location and orientation of the user 770-2, as well as the signal indicating the user ID associated with the user 770-2, and retrieves from the storage device 740, through line 703 communication, one or more user data associated with the user ID for the user 770-2. The controller 730 visualization also receives the signal indicating the location and orientation of the user 760-2, as well as the signal indicating the user ID associated with the user 760-2, and retrieves from the storage device 740, through line 703 communication, one or more user data associated with the user ID for the user 760-2. The controller 730 advanced visualization forms the first team create the glow on the basis of a combination containing one or more user data associated with the user 770-2, and one or more the of the following: the user's location 770-2 and orientation of the user 770-2. Similarly, the controller 730 visualization generates a second command to create the glow on the basis of a combination containing one or more user data associated with the user 760-2, and one or more of the following: the user's location 760-2 and orientation of the user 760-2. The controller 730 visualization can be any type of controller, visualization, described in the controller 440 visualization Fig. 4.

The controller 730 rendering passes through line 704 connection, the first and second commands create the glow. Infrastructure 750 visualization takes the first and second commands create the glow and controls, via line 705 communication devices 770 visualization, which is closest to the user 770-2, so that the actuator 770 visualization display a visual glow 770-1 near the user 770-2. Glow 770-1 contains at least one or more user data associated with the user 770-2. Similarly, infrastructure 750 visualization controls, through the communication line 706, actuators 760 visualization, which is closest to the user 760-2. Infrastructure 750 visualization controls actuators 760 visualization so that the actuator 760 visualization display a visual glow 760-1 WB is Izzy user 760-2. Glow 760-1 contains at least one or more user data associated with the user 760-2. According to some variants of implementation in response to detection of a correlation between one or more user data associated with the user 770-2, and one or more user data associated with the user 760-2, infrastructure 750 visualization advanced controls one or more actuators visualization to visually display the communication line between the user 770-2 and user-760-2.

Although herein described and illustrated several embodiments of the invention, the specialists in this field of technology should be easy to imagine a variety of other means and/or structures for performing the functions and/or obtaining the results and/or one or more of the advantages described herein, and it is believed that each of these changes and/or modifications is within the scope of embodiments of the invention described in this document. More generally, specialists in the art should readily take into account that all parameters, dimensions, materials and configurations described in this document are to be understood as exemplary and that actual parameters, dimensions, mater what materials and/or configurations depend on the particular application or applications, using the ideas of the invention. Experts in the art should recognize, or be able to install using no more than ordinary experimentation, many equivalents to the specific embodiments of the invention described in this document. Therefore, it is necessary to understand that the above embodiments of presented only as examples and that within the scope of the attached claims and their equivalents invent ways of implementation can be implemented in a manner other than specifically described and claimed. Embodiments of the invention the present disclosure is directed to each individual feature, system, article, material, kit and/or method, described herein. In addition, any combination of two or more such features, systems, articles, materials, kits and/or methods, if such features, systems, articles, materials, kits and/or methods are not mutually inconsistent, is included within the scope of the invention of the present disclosure.

It should be understood that any definitions that are defined and used in this document are controlled according to dictionary definitions, definitions in the documents incorporated by reference, and/or common sense asked the terminology is s.

Indefinite articles "a" and "an" when used in the detailed description and in the claims, unless expressly stated otherwise, should be understood as meaning "at least one". The phrase "and/or" when used in the detailed description and in the claims should be understood as meaning "either or both" of the elements combined in such a way, i.e. elements that together are present in some cases and separately present in other cases. Several items listed with "and/or"should be treated equally, meaning "one or more of the elements combined in this way. Optional can be other elements other than the elements specifically identified by the expression "and/or", whether associated or not associated with specifically identified items. Thus, as a non-limiting example, reference to "A and/or B", when used in conjunction with an open expression, such as "contains"may mean in one embodiment, only A (optionally including elements other than B); in another embodiment, only B (optionally including elements other than A); in yet another embodiment, both A and B (optionally including other elements); etc

When used in p the fractional description and in the claims the phrase "at least one" in reference to a list of one or more elements should be understood as meaning at least one element selected from any one or more items in the item list, but not necessarily including at least one of each item specifically listed in the list of items, and not exclusive of any combination of items in the item list. This definition also allows that may not necessarily be the elements other than the elements specifically identified in the list of items, which include the phrase "at least one", whether related or unrelated to a specifically identified items. Thus, as a non-limiting example, at least one of A and B" (or equivalently "at least one of A or B", or equivalently "at least one of A and/or B") can mean, in one embodiment, at least one, optionally including more than one, A, without the presence of B (and optionally including elements other than B); in another embodiment, at least one, optionally including more than one, B, without the presence of A (and optionally including elements other than A); in yet another embodiment, at least one optional vklyuchayuschee more of the same, A, and at least one, optionally including more than one, B (and optionally including other elements), etc.

Also it should be understood that, unless expressly stated otherwise, in any of the ways stated in this document, which include more than one step or steps, the order of the steps or actions of the method is not necessarily limited to the order in which the stages or steps of the method are outlined.

In the claims, all references to the numbers in parentheses are just for convenience and should not be construed as limiting the claims in any case.

In the claims, as well as in the above detailed description of all transitional phrases such as "comprising", "includes", "carrying", "having", "containing", "seeks", "holding", "comprising" and the like, should be understood as open, i.e. meaning including, but not only. Only the transitional phrases "consisting of" and "consisting essentially of" shall be closed or semi-closed transitional phrases, respectively.

1. System on the basis of light for the formation of social ties that contains:
the first lighting controller to control the first individually controllable lighting device in a lighting network and to transmit a first signal indicating identificato the first location, and the second signal indicating the first localized light setting;
the first storage device to associate at least the ID of the first location with the first localized light setting;
processor to determine the first localized light setting from the second signal and receiving from the first storage device, at least one second identifier of a location associated with the second localized light setting, which has a correlation with the first localized light setting;
- communications network for receiving at least one identifier of the second location from the processor and transmitting a third signal that indicates the potential for communication on the basis of light; and
the second lighting controller in a location associated at least one identifier of the second location, to control the second individually controllable lighting device in a lighting network, for receiving the third signal from the communication network and for transmitting in response, via the communication network, the fourth signal indicating the interest in the communication on the basis of light;
moreover, the processor receiving the fourth signal, creates an Association in the second storage device between the identifier of the first location and less is th least one identifier of the second location.

2. The system is based on light according to claim 1, in which the individually controllable lighting device contains many pages from one or more lighting modules and in which many pages from one or more lighting modules includes one or more led light sources.

3. The system is based on light according to claim 1, in which the individually controllable lighting device includes one or more led light sources.

4. The system is based on light according to claim 1, additionally containing the first user interface to transmit the first light settings in the first lighting controller and the second user interface to transmit the second light settings in the second lighting controller.

5. The system is based on light according to claim 1, in which the correlation between the first localized light setting and the second localized light setting based on:
- the difference between the first color associated with the first localized light setting and the second color associated with the second localized light setting, or
- the difference between the first brightness associated with the first localized light setting and the second brightness associated with the second localized light setting.

6. The system is based on light according to claim 1,
in which the third signal indicating the potential for communication on the basis of light contains signal indicating the level of brightness associated with the second localized light setting;
in which the fourth signal indicating the interest in the communication on the basis of light contains signal indicating the level of brightness associated with the first localized light setting; and
in which the fourth signal are separated by time from the third signal by a given interval.

7. The system is based on light according to claim 1, in which the processor identifies at least one identifier of the second location in the second storage device, and verifies the first storage device, to identify the next ID of the second location associated with the next second localized light setting, which has a correlation with the first localized light setting.

8. The system is based on light according to claim 1,
in which after creating the processor associating the second storage device between the identifier of the first location and at least one second identifier of a location of the communication network receives the fifth signal indicating a third localized light setting from the first USB circuits the RA lighting; and
- in which, after determining that the second storage device contains the Association between the identifier of the first location and at least one identifier of the second location, the communication network transmits the fifth signal to the second lighting controller.

9. System-based light of claim 8,
in which the third localized light setting contains a light setting that specifies the selected color and brightness, or light setting that specifies the selected sequence of colors associated with brightness; and
in which the third localized light setting symbolizes the connection element containing at least one of the following: a letter of the alphabet, a number, a word and a phrase.

10. The system is based on light according to claim 1,
in which after creating the processor associating the second storage device between the identifier of the first location and at least one second identifier of a location of the communication network receives a signal from the first controller lighting, and additional signal indicating the first data includes at least one of the following: a text character, a static image, a smell, a video file and an audio file; and
- in which, after determining that the second storage device contains the Association between the the ID of the first location and the second location, the processor sends an additional signal to the second lighting controller.

11. System on the basis of light for the formation of social ties that contains:
- lighting controller to control individually controllable lighting device in a lighting network and transmitting the first signal indicating the ID of the first location and the second signal indicating the first localized light setting;
the first storage device to associate at least the ID of the first location with the first localized light setting;
processor to determine the first localized light setting from the second signal and receiving from the first storage device, at least one second identifier of a location associated with the second localized light setting, which has a correlation with the first localized light setting; and
- communications network for receiving at least one identifier of the second location from the processor and transmitting a third signal that indicates the potential for communication on the basis of light;
in which the light controller receives the third signal and transmits in response to the fourth signal indicating the interest in the communication on the basis of the light, and
in which the processor receiving the fourth signalt controller lighting, creates an Association in the second storage device between the identifier of the first location and at least one identifier of the second location.

12. The system is based on light by claim 11, in which the individually controllable lighting device contains many pages from one or more lighting modules and in which many pages from one or more lighting modules includes one or more led light sources.

13. The system is based on light by claim 11, in which the individually controllable lighting device includes one or more led light sources.

14. The system is based on light claim 11, further containing at least the first user interface and at least a second user interface for the transmission of light settings in the lighting controller.

15. System on the basis of the light 11,
in which after creating the processor associating the second storage device between the identifier of the first location and the second location lighting controller transmits signals indicating the ID of the first location and the third localized light setting; and
- in which, after determining that the second storage device contains the Association between the identifier of the first location and the second location, and after receiving the signal indicating the ID of the second location and the third localized light setting, the lighting controller controls individually controllable lighting device ID of the second location to create light settings according to the third localized light setting.

16. System on the basis of the light 11,
in which after creating the processor associating the second storage device between the identifier of the first location and the second location lighting controller transmits signals indicating the ID of the first location and the data containing at least one of the following: a text character, a static image, a smell, a video file and an audio file; and
- in which, after determining that the second storage device contains the Association between the identifier of the first location and the second location, the light controller receives signals indicating the ID of the second location and data.

17. System on the basis of light for the formation of social ties that contains:
- localization system for determining the location of the user and to transmit a first signal indicating the location of the user;
system the IDA is the certification to determine the user ID, associated with the user, and to transmit a second signal indicating the user ID;
- storage device to associate the user identifier with one or more user data; and
controller render:
- to receive the first signal and the second signal
- to retrieve from the storage device one or more user data associated with the user ID,
- forming the team create the glow on the basis of a combination containing one or more user data and the user's location, and
to send the command to create a glow in infrastructure visualization to control one or more actuators visualization, closest to the user, to display the visual glow, containing at least one or more user data.

18. The system is based on light 17, in which the user's location includes the orientation of the user.

19. The system is based on light 17, additionally containing an electronic mobile device that is nearest to the user, for transmitting a third signal indicating a device identifier for the mobile electronic device,
in which the localization system determines the location of the electronic Moby is inogo device based on the third signal and determines the user's location based on the location of the electronic mobile device; and
in which the identification system determines the user ID based on the device identifier.

20. The system is based on light by claim 19, in which the electronic mobile device includes one or more of the following: a controller visualization and storage device.

21. The system is based on light 17,
in which the controller rendering generates a command disable glow; and
in which infrastructure visualization takes the team off glow and controls one or more actuators visualization closest to the user, so that the glow disappears.

22. The system is based on light 17, additionally containing an electronic mobile device that is nearest to the user, the electronic mobile device transmits a third signal indicating a device identifier for the mobile electronic device, and the fourth signal indicating the location of the electronic mobile device,
in which the localization system determines the location of the mobile electronic device based on the fourth signal and determines the user's location based on the location of the electronic mobile device; and
in which the identification system determines the user ID on the basis of the third signal.

23. The system is based on light 17 in which one or more user data contain at least one of the following: recent user interaction, future plans and user personal interests of the user.

24. The system is based on light 17, in which the glow contains at least one of the following: monochrome lighting, multi-color light drawings, images and video.

25. The system is based on light 17,
in which one or more user data contain the first element data and the second data item,
in which the first data item is assigned a higher rating relevance than the second data item; and
in which infrastructure visualization controls one or more actuators visualization so that the first data item appears in more Central glow than the second data element.

26. The system is based on light 17,
in which the Executive visualization devices contain at least one of the following: individually controllable lighting devices in the lighting network, displays, projectors, and pixel length of the cell; and
in which individually controllable lighting devices contain many pages from one or more lighting modules; and
- in which plural what about the layout of one or more lighting modules contain one or more led light sources.

27. The system is based on light 17, which additionally contains the user interface for the modification information storage device, add information in the storage device or delete information from the storage device, and the information contains one or more of the following:
one or more user data, user ID, Association, among at least one user data and the user ID and the permission to display at least one user data.

28. The system is based on light 17, in which the controller rendering generates a command to create glow advanced on the basis of automatically determining a display of one or more user data, while automatically determining includes determining whether associated or not one or more user data with rule display that displays one or more user data.

29. The system is based on light on p.19,
in which the localization system determines the location of the mobile device via technologies, containing at least one of the following: GPS, using GPS, triangulation, analysis of signal intensity and technology-based accelerometer; and
in which the system ID is tificatio specifies the user ID, associated with the user, through the use of technology to recognize the unique characteristics of the user and verification of the second storage device on the user ID associated with unique characteristics.

30. The system is based on light 17,
in which one or more data of the user is further associated with metadata, containing time data;
in which one or more user data contain at least the first data item and the second data element with the first data element associated with the first metadata and the second data element associated with the second metadata, and the first and second metadata together indicate that the first data item is newer than the second data item; and
in which the controller rendering generates a command to create a glow through the additional use of the first and second metadata, so that the display illumination selects the first element data regarding the second data element.

31. The system is based on light 17,
in which glow contains a picture, consistency or color of light;
and figure, consistency or color of light is passed a value that contains the degree of interest in the formation of relationships based on lighting or interest is participation in a particular event; and
- the system further comprises a user interface for associating the value with a pattern, a sequence, or the colour of the light and to retrieve the value associated with a pattern, consistency or color of light.

32. The system is based on light 17,
- in which contains the user of the first user and one or more user data contain one or more data of the first user;
in which in response to receiving a command to create a second glow infrastructure visualization advanced controls one or more actuators visualization, closest to the second user for display of the second fluorescence, and the team create a second glow contains one or more of the following: one or more data of the second user associated with the identifier of the second user and a location of the second user, and the second luminescence containing one or more data of the second user; and
in which in response to detection of a correlation between one or more data of the first user and one or more second user data infrastructure visualization controls one or more actuators visualization to visually display the communication line between the first user is Elam and the second user.

33. The system is based on light 17, in which the infrastructure visualization advanced controls one or more sensory devices to display the glow and touch actuators contain non-visual devices.

34. The system is based on light p in which nonvisual actuators have a sound actuator or olfactory Executive devices.

35. The system is based on light 17, in which the user is tracked, and the tracking includes:
- localization system, periodically determining an updated location of the user and transmitting the signal indicating the updated location of the user,
controller visualization, periodically receiving a signal indicating the updated location of the user, and generates an updated command to create glow additionally based on the updated location of the user.

36. The system is based on light according to claim 1, in which the Association between the identifier of the first location and at least one identifier of the second location is performed when the degree of correlation between the first localized light setting and the second localized light setting is, at the very measures which, pre-selected controlled variable.

37. System on the basis of light for the formation of social ties that contains:
- localization system for determining the location of the user and to transmit a first signal indicating the location of the user;
system identification for identifying a user ID associated with the user, and to transmit a second signal indicating the user ID;
- storage device to associate the user identifier with one or more user data; and
controller render:
- to receive the first signal and the second signal
- to retrieve from the storage device one or more user data associated with the user ID,
- for issuing a new light based on at least one or more user data, and
to send the command to create a glow in infrastructure visualization to control one or more actuators visualization for visual display of light, containing at least one or more user data.



 

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20 cl, 12 dwg

FIELD: physics, communications.

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11 cl, 6 dwg

FIELD: electricity.

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FIELD: electricity.

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15 cl, 17 dwg

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FIELD: physics, computer engineering.

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13 cl, 10 dwg

FIELD: electricity.

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9 cl, 7 dwg

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The invention relates to the field of security alarm system and can be used for protection of residential, public and office space

Device alarm // 2090932
The invention relates to alarm devices, particularly to devices of pulse signaling, and can be used on objects with distributed parameters

FIELD: physics, control.

SUBSTANCE: invention relates to means for remote control of electronic devices, particularly television sets with Internet access. The control panel comprises at least one casing, a board inside said housing, having a microprocessor and a system for transmitting data to the controlled electronic device, and a set of buttons and a micro-joystick, connected to the microprocessor by data buses, wherein the panel has only one two-dimensional micro-joystick, one button for switching operating modes of the panel and two buttons whose functions are defined by the activated operating mode of the panel.

EFFECT: minimising the number of control elements of the panel and easy control.

15 cl, 5 dwg

FIELD: physics, computer engineering.

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EFFECT: high efficiency of executing control actions on a monitor screen via contactless control.

2 cl

Scroll wheel // 2509342

FIELD: information technology.

SUBSTANCE: method for enabling scrolling on a display in a first direction by turning of a scroll wheel on a computer mouse, without requiring lifting a finger from the scroll wheel during use of the computer mouse, which is realised by program procedures for first and second modes of operation, the method comprising the steps of changing a scroll wheel mode of operation from a first mode of operation to a second mode of operation by performing an action, and turning the scroll wheel in a first direction of turning, wherein the program procedures for the second mode of operation are executed such that turning of the scroll wheel in the first direction of turning causes scrolling on the display in the first direction and a turning the scroll wheel in a direction of turning other than the first direction of turning causes scrolling on the display in the first direction.

EFFECT: high efficiency of scrolling on a display at low and average speeds.

8 cl, 2 dwg

FIELD: process engineering.

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EFFECT: higher efficiency.

16 cl, 9 dwg

Stylus // 2498389

FIELD: information technologies.

SUBSTANCE: stylus comprises a body and an attachment, made as replaceable, having a contact head from soft fibre, at least one spare attachment, at the same time the specified body comprises a cartridge equipped with a cavity for their (spare attachment) placement. In the other version the stylus comprises a body and an attachment made as replaceable, having a contact head of soft fibre, in which the specified body comprises a cartridge, equipped with a tip screwed to its lower part, at the same time the specified attachment has a fixator made as capable of insertion into the specified tip and withdrawal from it.

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15 cl, 8 dwg

FIELD: information technology.

SUBSTANCE: device includes at least two joysticks, in the top part of which there is at least one mini-joystick; the middle part has a shape adapted for gripping with the hand; each joystick is immovably connected to the control object with the possibility of adjusting the position under the length of the hands of the pilot, such that they are used as unloading levers, wherein the pilot is able, while holding them, to remove the overload on his body and hands, while focusing on control with fingers; the shape of the joysticks is in form of figures from the top part of which at least one shaped shelf, on which at least one mini-joystick is mounted, moves away towards the index finger and middle finger of the hand or envelopes the joystick.

EFFECT: design of a device which enables extremely fast and easy generation of control commands for hyper-manoeuvre high-speed aircraft and spacecraft in conditions of strong vibrations and overload.

4 cl, 5 dwg

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