FR2991545A1 - Lighting device for computer peripherals, has digital terminal connected in wireless manner to Internet, where digital terminal includes memory, and luminaire and terminal are able to exchange information in partially wireless manner - Google Patents

Abstract

The device (1) has a luminaire (3) including a processing unit (6), a light source i.e. LED, and a wireless signal receiver. A digital terminal (2) e.g. smart phone, is able to be connected in a wireless manner to Internet network (1002), where the digital terminal includes a memory. The luminaire and the digital terminal are able to exchange information in a partially wireless manner. A control program is stored in the memory. The processing unit controls a state of the light source of the luminaire, while taking the control program into account. An independent claim is also included for a method for checking a lighting device.

Description

DESCRIPTION The field of the present invention is that of supplementary lighting. Thus, the object of the invention is, on the one hand, a particular lighting device, and, on the other hand, a method for controlling such a device.

FR 2 862 461 discloses a luminaire whose function is to represent information in the form of a light signal. The information comes from various sources, such as the Internet. The information to be represented is translated in terms of luminous intensity, colorimetry, pulsation, or phase. One of the drawbacks of this embodiment is that the functions of the luminaire used to display the information are fixed, and that the user has little possibility of modulating the operation of the luminaire. The luminaire is essentially used to transform and then present information, such as the receipt of a message, for example. It is not possible to use this information to create a real program or lighting environment. EP 1 480 497 discloses a lighting installation in which the control terminal presents, in the form of a grid, the room in which a set of luminaires is located. It is then possible to set each luminaire independently, using the control terminal. In addition, in such an installation, it is not possible to change the functionality of the lighting. Features are limited to on / off. In addition, the graphic representation requires reprogramming the interface for each location, limiting the possibility of using the control device as a mobile device, compatible with different installations. EP 1 624 728 proposes to create a luminaire control program from a terminal, to store it on a computer-readable medium, and then to use this medium to control different luminaires using a DMX language. However, in this document, modification of the control program is not easy, and the choice of programs is limited. In addition, this document recommends the use of a DMX communication, which multiplies the stages of encoding. No. 2,005,797 or EP 1 997 352 propose a remote control for a luminaire, which presents the possible hues in the form of a ring. The user can then easily choose the desired shade for the luminaire with this touch zone. However, it is not possible to modify the control program used by such a remote control to control the luminaire. Thus, the same action on the remote control is always associated with the same effect on the luminaire. In addition, the interface can not be changed, but always has the shape of a ring.

The present invention aims at bearing at least a portion and preferably all the aforementioned drawbacks and therefore has the particular objective of improving the control that can have the user on a computer peripheral luminaire, particularly in terms of ergonomics, and therefore simplicity installation and use, but also features.

For this purpose, the invention proposes a lighting device comprising a luminaire, itself comprising at least one processing unit, a light source and a wireless signal receiver. This device is characterized in that it further comprises a digital terminal, which can be connected wirelessly to the Internet network and comprising a memory, the luminaire and the digital terminal being able to exchange information, at least partially. The invention also provides a method of controlling a luminaire, comprising the steps of essentially: - storing a luminaire control program - executing the control program to change the luminaire status. This method is characterized in that it comprises, in addition, a preliminary step consisting essentially in recovering said control program of a luminaire, from a database accessible on the Internet and using a digital terminal. connected wirelessly to the internet.

In the remainder of the description, different embodiments of the invention will be explained, without the invention being able to be limited thereto, and this with the aid of the following figures: FIG. 1 shows a device according to FIG. invention in a first architecture, - Figure 2 shows a device according to the invention in a second architecture, and - Figure 3 shows a method according to the invention. The invention therefore firstly relates to a lighting device 1 comprising a luminaire 3, itself comprising at least one processing unit, a light source and a wireless signal receiver. For its power supply, the luminaire 3 naturally also comprises a source of electrical energy, preferably in the form of an adapter to be connected to the mains or of a rechargeable electric battery, for example by photoelectric effect. The luminaire 3 advantageously comprises, as a light source, a plurality of LEDs, light-emitting diodes, which can of course each have a different hue, obtained from a mixture of red, green, blue or even white. The operation of these light sources is controlled by the processing unit, usually a digital processor. Of course, each light source can be controlled independently, at least in color and intensity. The processing unit and the receiver are connected, so that said receiver can provide information to said unit, which may be, for example, state instructions of the light sources, in terms of intensity, color , or other, or even, as will be described later, a complete control program of the luminaire 3. Preferably, the luminaire 3 is an auxiliary device 20 in a home, and forms a device of a domestic computer equipment, independent elements that normally illuminate a room, for example. It is not intended to illuminate a room where a user is by replacing the lighting equipment of an electrical installation, but instead forms a device of a digital installation. The power of the luminaire 3 may be such that it only places a luminous ambience, or just a touch of color, but it can also be sufficient to, for example, illuminate a work surface or a book for reading. The luminaire 3, however, preferably remains easily movable and is therefore movable, as opposed to a fixed luminous installation fixed or even recessed into a wall or a ceiling. The luminaire 3 is easily movable in a house, and therefore does not require any particular physical placement, type wall attachment as a room lighting, for example. According to the invention, the lighting device 1 furthermore comprises a digital terminal 2, which can be connected wirelessly to the Internet network and comprises a memory, the luminaire 3 and the digital terminal 2 being able to exchange information, at least partially wireless, this exchange being by direct interaction between the digital terminal 2 and the luminaire 3 or by interaction through other means of information communication. When the exchange of information is direct between the luminaire 3 and the digital terminal 2, the exchange of information is entirely wireless. When the exchange of information is not direct, at least part of the traffic is wireless, in particular the transmission and reception by the digital terminal 2, and the reception and transmission by the luminaire 3 As will be further developed further, the exchange of information is at least in the direction of the digital terminal 2 to the luminaire 3, but it can also be bidirectional. The digital terminal 2 can therefore send instructions to the luminaire 3, and therefore itself comprises a wireless transmitter adapted for this purpose. The digital terminal 2 and the luminaire 3 can communicate directly, wirelessly or via a local network, which then increases the scope of communication between the two elements. In preferred embodiments, the digital terminal 2 comprises a touch screen, and can be connected wirelessly to a telecommunication network, or even to a geolocation network. Digital terminals 2 of this kind can be smartphones, PDAs, Personal Digital Assistant, desktop computer, laptop, tablet, touch screen, etc. This mobile digital terminal 2 can connect to both the internet and fixture 3, without wired connection for one or the other of these connections, and can be moved very easily while remaining fully functional. The digital terminal 2 may therefore have functions of a computer terminal and / or a telecommunication terminal. In some embodiments, the luminaire 3 has a memory in which a control program can be stored, as well as a processing unit 6, controlling the state of the at least one light source of the luminaire 3, taking into account the a control program. As will be described further below, a control program of the luminaire 3 can then be sent by the digital terminal 2 to the luminaire 3, which can store it to execute it automatically, the communication with the digital terminal 2 may be non-existent, by example the extinction of said terminal. The wireless signal receiver of the luminaire 3 then receives, from the digital terminal 2, information representative of a control program of the luminaire 3, this information then being transferred to the processing unit, and then saved. in the memory.

Subsequently, even in the absence of communication with the digital terminal 2, the processing unit can therefore consult and operate the control program contained in the memory to manage the state of the light sources. According to an additional possible feature, making it possible to enrich the operation of the luminaire, the digital terminal 2 has control means 4, able to allow a user to execute a control program 102, in particular touch zones of a screen, camera, microphone, gyroscope, GPS sensor. Thus, in a first mode of operation, the control means 4 can control the luminaire 3 with the digital terminal 2 through a control program retrieved from the Internet. The digital terminal 2 can therefore function as a remote control of the luminaire, if the control program corresponds to it. This wireless remote control of the luminaire 3 may be more or less elaborate depending, for example, controls 4 which actually has the digital terminal 2, but also actions assigned to these controls 4 by the program. Thus, if the control means 4 uses a gyroscope, it will be possible, for example, to turn on the light sources so as to reproduce the position of the digital terminal 2. It is also possible to use the detected acceleration peaks by the accelerometer to trigger a luminous event, such as lighting, extinguishing, changing lighting, or other. In cases where the mobile terminal 2 is equipped with an optical camera or detector, it will be possible for example to adapt a control program according to the brightness detected in the room. The control of the luminaire 3 can thus be done by exploiting all the functions of the digital terminal 2: connection to the internet, various sensors, input areas, etc. The use of a digital terminal 2 of this type makes it possible to use in particular its graphical interface via a touch screen to intuitively control the operation of the luminaire 3.

According to an additional possible characteristic, the luminaire 3 comprises at least one sensor, able to supply the processing unit with information relating to the state of the luminaire 3 or of its environment, as well as at least the transmitter 5 for wirelessly sending a signal to the digital terminal. These sensors can be used to send information concerning, for example, an ambient temperature, a temperature of an LED, a brightness, a movement.

This information provided by a sensor of the luminaire 3 can then be used in the control program, executed autonomously at the level of the luminaire 3: the overall shade of the luminaire can for example be representative of the ambient temperature measured in the room by a thermometer associated with, or included in, the luminaire 3. The luminaire 3 may also include an amperemeter, detecting the charge rate of an electric battery included in the luminaire 3. This charge rate may then be used to adjust the color or a flashing frequency of one of the light sources of the luminaire 3. The sensors can also be used to measure the temperature of each LED specifically. Indeed, for the same setpoint, the wavelength of the emitted light changes according to the temperature of the LED. The processing unit therefore also uses the temperature of each LED to modulate its control, so as to ensure the desired color by the control program. The temperature of the LEDs can of course also be returned to the digital terminal 2. The information provided by the sensor can also be temporarily stored at the luminaire 3, then communicated to the digital terminal 2, which allows, for example, to be able to train a power consumption profile of the luminaire 3 over time.

Finally, according to another possible additional feature of the lighting device, the luminaire 3 communicates with a telecommunication network. This connection can of course be made using the same receiver as that used to communicate with the digital terminal 2. Preferably, it is the same for the digital terminal 2, which can therefore take the form of a smartphone, for a. telephone subscription. These communications can retrieve information stored in remote databases. These infohwtions can be stored nominatively, so that by connecting to the database, a user can retrieve the information that is specific to him, and therefore a set of control programs, data to adapt a program , etc., and whatever the equipment used for the connection, namely the -7 digital terminal 2. The identification 7 necessary for connection to the database thus allows a user to find the entire its data, programs, settings, etc. which may for example be subject to the payment of a subscription.

FIG. 2 shows an architecture of the lighting device 1, where the digital terminal 2 and the luminaire 3 communicate indirectly, namely an architecture in which the mobile terminal 2 is in wireless connection with a remote server 8, preferentially available via the Internet network, so as to exchange information with said server, especially in both directions of communication. A connection box 9, a versatile communication equipment, known as a "Box" or "Set-Top Box", forming a network termination device, or even an Ethernet router to which several communicating equipment can be connected and through which they can also connected, is connected to the same remote server 8 via the Internet, and is also connected with the digital terminal 2 by a wireless connection to give it access directly to the Internet and thus also to said remote server 8. The digital terminal 2 can also be directly in wireless communication with the remote server 8.

The luminaire 3 is connected to the connection box 9, and can therefore be controlled by the digital terminal 2, through, on the one hand, a remote server, then, on the other hand, a connection box 9, or alternatively, through the connection box 9. In the latter type of communication, the control of the digital terminal 2 on the luminaire 3 is therefore done without passing through the remote server 8. The communication between the digital terminal 2 and the luminaire 3 however, remains partially wireless, since the digital terminal 2 communicates wirelessly with the connection box, or even the remote server 8, and the luminaire 3 also communicates wirelessly with the connection box. This indirect interaction architecture between the digital terminal 2 and the luminaire 3 does not require modification of the architecture of the interaction between the digital terminal 2 and the database in which the control programs are stored.

The subject of the invention is also a method of implementing a lighting device 1 as described above, namely a method of controlling 100 of a luminaire 3, comprising the steps essentially consisting in - memorize 103 a control program of the luminaire 3 - execute 102 the control program to change the state of the luminaire 3. The control program may consist of an interface, at the digital terminal 2, for controlling instantaneously the state of the luminaire 3. Control programs may also allow, for example: a luminous choreography, a program of light therapy, 10 chromotherapy, generation of ambiences to decorate an interior, the choice of an overall color for the luminaire 3 , which can indeed have several light sources of different color, the choice of a color for only a part of the light sources of the luminaire 3, the choice of a modifying dynamic effect in time, the illumination state of the luminaire 3, in particular by modifying the color, the intensity, the frequency, and this in a predefined sequence. A control program can also be a dawn simulator, which corresponds to a chronological sequence of light states, recurrently chained to scheduled times: every day at the same time, only the days of weeks, the different hours 20 every day, the variation of the luminous intensity can also be parameterized. It can then be particularly advantageous to take advantage of the optical detector of the digital terminal 2 to take into account the ambient light to increase or limit the lighting power. The control program may therefore consist essentially of a sequence of states of the luminaire 3 different from one another by hues, intensities, gradients, etc. A control program is thus different from the representation of information in the form of a light signal, which in particular requires the information to be transformed into a set of light parameters, such as color, gradient, intensity, etc. A control program allows a user to directly influence the state of the luminaire 3, instantaneously by acting on the digital terminal 2, or after setting a luminous sequence that will be played by the luminaire 3. It can s' act as static lighting, not changing in time, or dynamic sequences, the light emitted by the luminaire then changing gradually over time, in terms of distribution, color, blinking, etc.

According to the invention, the method further comprises a preliminary step consisting essentially in recovering 101 said control program of a luminaire 3, from a database 1001 accessible on the Internet 1002 and using a digital terminal 2 wirelessly connected to the Internet 1002, the control program mainly consisting essentially, as has been said, in a sequence of states of the luminaire 3 different from each other by the hues, the intensities, the gradients, etc., the recovery step 101 may also consist of updating an earlier version of the control program.

This recovery step 101 may require identification of the user, allowing him to access the part of the database to which he is subscribed. Thus, it is possible, for example, for a subscriber to the database to connect from any digital terminal 2, and then to use the control programs to which it is connected. 15 his subscription gives him access to control a luminaire 3 with which communicates the digital terminal 2 with which it connects to the base. A user can therefore exploit the capabilities of his subscription to the database on any lighting device 1. It may then be necessary to consider solutions to prevent programs from being stored in a digital terminal 2 or in a digital terminal. the luminaire 3 and can then be operated later by a user who does not normally have access to the part of the database from which these programs originate. During the recovery step, the mobile terminal 2 will therefore exploit the contents of an online database, in order to search for a particular control program. Recovering a control program may also consist in updating an earlier version of one. equivalent control program. The database can be periodically powered, completed, so as to offer the user 30 new control programs or new versions. The method also comprises a step consisting essentially in the pairing or unmixing between the luminaire 3 and the digital terminal 2. This pairing, necessary since the communication is wireless, is preferably performed via a wifi or Bluetooth coding. The use of a bluetooth language makes it possible in particular to reduce the number of encoding boxes. In particular embodiments, the control method comprises an additional step consisting essentially in transmitting to the luminaire 3 itself the control program from the digital terminal 2 the control program, the control program being stored at 103. level of the luminaire 3, the execution 102 of the control program being carried out by the luminaire 3, independently of the digital terminal 2. The control program can therefore be stored 103 at the luminaire 3, the execution 102 of the control program being realized by the luminaire 3, independently of the digital terminal 2. Of course, a treatment of the control method recovered by the digital terminal 2 is possible before transmission to the luminaire, especially if it is only an update . If the control program is transmitted and memorized at the level of the luminaire 3, it is possible that its execution takes place even in the absence of communication with the digital terminal 2, the latter being off, or not reachable by the wireless communication, for example. Of course, the luminaire 3 can be turned off, and when it is switched on again, the lighting sequence can resume as before the extiction. When the luminaire 3 is restarted, the last effect is thus found and continued, possibly from the beginning. Advantageously, the luminaire 3 also includes a clock, and if the extinction time is beyond a predefined threshold, the luminaire 3 is reset, and the sequence sent by the control program is not restarted. When the control program is memorized at the level of the luminaire 3, the digital terminal 2 can be used to set the execution of the control program: for example, the control program can be a chromotherapy program stored in the luminaire 3 for it can be exploited even if the digital terminal 2 is not in operation, but the digital terminal 2 can still be used to, for example, change the colors used, the durations of the different steps, etc. In other embodiments, the control program 35 is stored 103 at the digital terminal 2, its execution 102 of using said control program from the digital terminal 2 to control the luminaire 3, in particular to the using control means 4 of the digital terminal 2 itself, in particular touch areas of a screen, camera, microphone that have already been mentioned. In these cases, the digital terminal 2 acts as a control member of the luminaire 3, using the features that the control program gives it. Of course, several control programs can be memorized by the digital terminal 2. It is therefore necessary that the digital terminal 2 and the luminaire 3 are in communication, so that the digital terminal 2 can send, through the control program, information 3. For example, the digital terminal 2 can form a scalable remote control, and the program associating an action on the digital terminal to an effect on the luminaire can be easily changed. In addition, the ergonomics of the digital terminal 2, especially if it is wirelessly connected to the Internet and the luminaire 3, is used for the control of the luminaire 3. Once stored at the digital terminal 2, it can be operated in streaming by the luminaire 3, which makes the use more dynamic. The control program can also be stored both at the level of the luminaire 3 and at the digital terminal 2. According to an additional possible feature, the method further comprises a step consisting essentially in adapting the control program to the base of parameters available on the Internet and / or generated by the digital terminal 2 itself, in particular by means of or its control means 4 or even thanks to information provided by the luminaire 3, as its own temperature . Unlike an execution using the digital terminal 2, adapting 104 said control program allows to define, or modify, some operating variables. The adapted control program can then be executed normally. Thus, in some embodiments the method includes a step of essentially reading information available from the Internet to adapt the control program, this step being implemented automatically. For example, weather forecasting data available online can be accessed by the digital terminal 2 and taken into account to adapt the control program, for example by adjusting the color for a dawn simulator program. so as to obtain a luminous atmosphere in the room that is independent of the conditions of sunshine outside, the luminaire 3 compensating only natural lighting, power and color. In this case, the behavior of the luminaire 3 depends on the natural light deduced from the meteorological information. In such cases, the control program is therefore adapted based on data accessed online. It is therefore the digital terminal 2 itself which consults the data and exploits them to adapt the control program without user intervention. These data can also be specific to the user, for example the state of his subscription to a paying service, for example. It is then possible to use meteorological data to adapt a well-being program, like chromotherapy or phototherapy, to help overcome any winter depressions due to lack of light. Alternatively or in a complementary manner, the control program can also be adapted as a function of data generated by the digital terminal 2 itself, in particular by virtue of the various control means with which it is equipped and which have already been mentioned. It is therefore in these cases to set the control program using the digital terminal 2. The control program can thus be adapted, for example, to the GPS positioning coordinates recorded for the mobile terminal 2, or at a light intensity measured by the optical detector of the mobile terminal 2. The control program can also be adapted according to an identifier of the user: the colors can thus be different if it is a man or a woman, or each user can set and recall when connected, preferences for the execution of the control program: time of triggering the sequence, duration of the ranges, distribution of colors among the various 30 light sources of luminaire 3, etc. In addition, alternatively or in a complementary manner, the control program can also be adapted 104 according to data provided by the luminaire 3, such as for example the temperature of the diodes, the illumination of the zone in which the luminaire 3 is located, sound environment, etc., the luminaire 3 thus being provided with adequate detection means: optical, thermal, sound, or other. The latter way of adapting the control program can be implemented if the control program is run from the luminaire 3 in autonomy, in which case the different detectors of the luminaire 3 supply its processing unit, but also if the program is executed from the digital terminal 2, in which case the luminaire 3 provides the necessary information to the digital terminal 2, which uses it to adapt the operation of the control program. In such cases, and according to a possible additional possible characteristic, the method comprises a step consisting essentially in returning 105 of the information of the luminaire 3 to the digital terminal 2, in particular information representative of the electrical energy consumed by the luminaire 3, or information collected by other sensors with which it is equipped. The information can thus be used by the digital terminal 2 to adapt a control program, but also for other purposes, in particular if the information consists of the energy consumption of the luminaire. The RF detector of the luminaire 3 can also serve as a source of information for the luminaire 3 and be used, for example, to record the intensity of the communication waves as a function of time. A control program can then for example be executed directly by the luminaire 3 and adapt the color of the luminaire 3 to the intensity of the waves detected. Finally, in advanced embodiments, the mobile terminal 2 can also be used to generate control programs. The connection, permanent or temporary, to a database, then allows it to be stored there. As the exploitation of the database is done preferably after identification, it is possible to envisage that the user shares with others the control program of which he is the author. By extension, the other users can therefore subscribe to the database on the one hand and to the productions of one or another such user on the other hand. Thus, thanks to the invention, it is in particular possible to take advantage of the capabilities of a digital terminal, its connection to the Internet to control a fixture, ergonomically, and through various control programs.

The invention is in no way limited to the embodiments which have been described above. Variations are possible, especially -14 by use of technical equivalents, by combination of the embodiments or characteristics described above.

Claims (10)

REVENDICATIONS1. Lighting device (1) comprising a luminaire (3), itself comprising at least one processing unit, a light source and a wireless signal receiver characterized in that it further comprises a terminal 5 digital device (2), which can be connected wirelessly to the internet network and includes a memory, the luminaire (3) and the digital terminal (2) being able to exchange information, at least partially wirelessly. 2. Lighting device (1) according to claim 1, characterized in that the luminaire (3) has a memory in which a control program can be stored, as well as a processing unit (6), controlling the the state of the at least one light source of the luminaire (3), taking into account a control program. 3. Lighting device (1) according to any one of claims 1 or 2, characterized in that the digital terminal (2) has control means (4), able to allow a user to execute ( 102) a control program. 4. Lighting device (1) according to any one of claims 1 to 3, characterized in that the luminaire (3) comprises at least one sensor, capable of supplying the processing unit with relative information. in the state of the luminaire (3) or its environment, and at least the transmitter (5) for wirelessly sending a signal to the digital terminal. 5. Lighting device (1) according to any one of claims 1 to 5, characterized in that the luminaire (3) communicates 25 with a telecommunication network. A method of controlling (100) a lighting device (1) according to any one of claims 1 to 5, comprising the steps of essentially: - memorizing (103) a luminaire control program (3) executing (102) the control program for modifying the state of the luminaire (3), characterized in that it comprises, in addition, a preliminary step consisting essentially in recovering (101) said control program of a luminaire (3), from a database (1001) -16- accessible on the Internet (1002) and using a digital terminal (2) wirelessly connected to the Internet (1002). 7. Method according to claim 6, characterized in that it comprises an additional step consisting essentially in transmitting to the luminaire (3) itself the control program from the digital terminal (2) the control program, the control program being stored (103) at the luminaire (3), the execution (102) of the control program being carried out by the luminaire (3), independently of the digital terminal (2). 10 8. Method according to claim 6, characterized in that the control program is stored (103) at the digital terminal (2), its execution (102) of using said control program from the digital terminal (2) for controlling the luminaire (3), in particular by means of control means (4) of the digital terminal (2) itself. 9. Method according to any one of claims 6 to 8, characterized in that it further comprises a step consisting essentially of adapting (104) the control program, on the basis of parameters available on the Internet and or generated by the digital terminal (2) itself. 10. Method according to any one of claims 6 to 9, characterized in that it comprises a step consisting essentially of returning (105) the information of the luminaire (3) to the digital terminal (2).