• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The present invention relates to a method for operating and controlling a lamp array comprising a plurality of lamps arranged in a number of groups (A, B) using a short-distance network. Each lamp comprises a control module (23, 28) for controlling its normal operation and for short-distance communications over the short-distance network with a designated group controller (23 ', 28', 31, 32) and other modules control within the group. Each designated group controller (23 ', 28', 31, 32) also functions for long distance communications with a central server and transmits its own specific information as a control module within the group. Information relating to more than one group can be quickly exchanged between adjacent groups over a long distance network via the group controller of adjacent groups, passing the central server, or directly over a short distance connection to a remote group. control module of an adjacent group. The failure of a group controller (23 ', 28', 31, 32) can be managed by designating another control module (23, 28) within the group such as a new group controller and the short network. flexible distance is reformed around a new group controller.
    公开号:BE1024693B1
    申请号:E2015/5019
    申请日:2015-01-13
    公开日:2018-05-23
    发明作者:Helmut Schröder;Didier Wellens;Daniel Brand
    申请人:Schreder S.A.;
    IPC主号:
    专利说明:

    (30) Priority data:
    11/10/2014 EP 14192582.6 (73) Holder (s):
    SCHREDER S.A. 1190, BRUXELLES Belgique (72) Inventor (s):
    SCHRÖDER Helmut 65201 WIESBADEN Germany
    WELLENS Didier 1950 KRAAINEM Belgium
    BRAND Daniel 50735 KÖLN Germany (54) Method for managing and controlling a network of lamps (57) The present invention relates to a method for operating and controlling a network of lamps comprising a plurality of lamps arranged in a number of groups ( A, B) using a short distance network. Each lamp includes a control module (23, 28) for controlling its normal operation and for short distance communications over the short distance network with a designated group controller (23 ', 28', 31, 32) and other modules of control within the group. Each designated group controller (23 ’, 28’, 31, 32) also works for long distance communications with a central server and transmits its own specific information as a control module within the group. Information relating to more than one group can quickly be exchanged between adjacent groups on a long distance network through the group controller of adjacent groups, passing through the central server, or directly over a short distance connection to a control module for an adjacent group. The failure of a group controller (23 ', 28', 31, 32) can be managed by designating another control module (23, 28) within the group such as a new group controller and the short network flexible distance is reformed around a new group controller.
    X · '• νΆ,
    BELGIAN INVENTION PATENT
    FPS Economy, SMEs, Middle Classes & Energy
    Publication number: 1024693 Deposit number: BE2015 / 5019
    Intellectual Property Office International Classification: H05B 37/02 Date of issue: 05/23/2018
    The Minister of the Economy,
    Having regard to the Paris Convention of March 20, 1883 for the Protection of Industrial Property;
    Considering the law of March 28, 1984 on patents for invention, article 22, for patent applications introduced before September 22, 2014;
    Given Title 1 “Patents for invention” of Book XI of the Code of Economic Law, article XI.24, for patent applications introduced from September 22, 2014;
    Having regard to the Royal Decree of 2 December 1986 relating to the request, the issue and the maintenance in force of invention patents, article 28;
    Considering the patent application received by the Intellectual Property Office on 13/01/2015.
    Whereas for patent applications falling within the scope of Title 1, Book XI of the Code of Economic Law (hereinafter CDE), in accordance with article XI. 19, §4, paragraph 2, of the CDE, if the patent application has been the subject of a search report mentioning a lack of unity of invention within the meaning of the §ler of article XI.19 cited above and in the event that the applicant does not limit or file a divisional application in accordance with the results of the search report, the granted patent will be limited to the claims for which the search report has been drawn up.
    Stopped :
    First article. - It is issued to
    SCHREDER S.A., Rue de Lusambo 67, 1190 BRUXELLES Belgium;
    represented by
    VAN REET Joseph, Holidaystraat 5, 1831, DIEGEM;
    CAERS Rat, Holidaystraat 5, 1831, DIEGEM;
    DUYVER Jurgen, Holidaystraat 5, 1831, DIEGEM;
    GEVERS PATENTS, Holidaystraat 5, 1831, DIEGEM;
    a 20-year Belgian invention patent, subject to payment of the annual fees referred to in article XI.48, §1 of the Code of Economic Law, for: Process for the management and control of a network of lamps.
    INVENTOR (S):
    SCHRÖDER Helmut, Tulpenweg 16, 65201, WIESBADEN;
    WELLENS Didier, Bloemenlaan 52, 1950, KRAAINEM;
    BRAND Daniel, Hildegardisstrasse 6, 50735, KÖLN;
    PRIORITY (S):
    11/10/2014 EP 14192582.6;
    DIVISION:
    divided from the basic application: filing date of the basic application:
    Article 2. - This patent is granted without prior examination of the patentability of the invention, without guarantee of the merit of the invention or of the accuracy of the description thereof and at the risk and peril of the applicant (s) ( s).
    Brussels, 05/23/2018, By special delegation:
    BE2015 / 5019 a network of
    The present invention relates to a method for ia management, in particular for the control of a network of lamps, in this case in particular floor lamps,
    According to the state of the art, it is known that networks of lamps are equipped with increasingly intelligent control. Remote management systems are for example known for the management of lamp networks in which a segment controller connected to a management console on an F : 5 C controls a certain number of lamps by means of their control module. The segment controller too large to be integrated into a lamp must be placed so that the lamps to be controlled can communicate with a short-distance communication module through it. A failure of the segment monitor results in a loss of maneuverability of the lamp network. On the other hand, due to the large number of lamps that can be controlled by a segment controller, the latency in the network is comparatively high so that events with high priority cannot be transferred in time to possible other groups due to too high latency.
    The aim of the present invention is to create a method for managing a network of lamps which is not only simpler to put into service, but which ensures higher communication security and faster communication,
    2.5 This object is achieved by a method according to claim 1 as well as by an object according to claim 3. Advantageous embodiments of the invention are detailed in the related subclaims as well as in the following description.
    The method according to the invention makes it easier to install a network. Higher communication security is simultaneously guaranteed. In the case of a method according to the invention for the management and in particular for the control of a network, in particular of clear lamp BE2015 / 5019, a plurality of control modules has been provided, in which each of the control modules must be respectively assigned or is assigned to a lamp, and in which the corresponding control module comprises respectively a long-distance communication module (for example GSM, GPRS, Iridium or another mobile data network or an Ethernet connection) , a short distance communication module (ZioBee, 6 LoWPAN or similar), preferably a near field communication module, a geolocation module to determine a position of the control module on ia Paso of a system. GPS, GLONASS, Galilee or other position determination systems, in particular by satellite, a controller and moreover a control output (eg based on DALI or 0 and / or 1 to 10 V). At least one of the control modules includes a sensor (eg a radar or an infrared sensor) capable of producing sensor information and / or this sensor data concerning the whole group. Control signals can be sent to a pilot from a lamp lighting source (if available), preferably from a floor lamp, via the control output. In addition, the network is equipped with at least one server which can be reached by means of the long distance communication module and on which a corresponding remote management software can operate. The long distance communication module can be based on different techniques. It can, for example, be mobile data networks, networks. IP or p. ex. long distance peerfo-peer networks.
    For the assembly and / or for the management of the network, the control modules are distributed in several groups of control modules, this distribution being made on the basis of information specific to the control module, to the environment and / or to the lamp and made available by the control modules. In particular, a maximum of 200 control modules, preferably no more than 50, are included in a group.
    BE2015 / 5019
    Οι
    Ο
    In addition to the geographic coordinates, the environmental information also relates to the information on neighboring control modules in the short-distance network (e.g. the quality of the connection and / or other RF characteristics and / or voiceboards5 sinage) and / or Information specific to the environment (e.g. ambient light). In the case of lamp information, it may be relevant information for the lighting sources used, their driver and / or other details of the assigned lamp, e.g. the current light intensity or dimming. In the case of information specific to the control module. This is in particular information relating to the clear identification of the control module such as its IP address or another USD (Unique IDenlirien.
    According to the invention, one of the commando modules of each group is selected to serve as group controller. This allows the other control modules of the corresponding group to communicate using their short distance communication modules. In other words, the internal communication of the group is done using the short distance communication module correspond. In the group, the control modules of a group form a short distance network, preferably in the form of a mesh network, through the corresponding short distance communication modules.
    In the normal operating state of the network, only the group controller transmits its own information via the long distance communication module to the server, as well as information on the environment, lighting, and / or control module received by the other control modules via the short-distance communication module ,, Normal operation mode is understood here to mean regular operation of the network in which network control modules are respectively assigned to a group and carry out their effective task: controlled it from the lamp. The information is always transmitted as indicated above and cl4
    BE2015 / 5019 afterwards by transmitting the corresponding data on the basis of a given communication protocol.
    According to the invention, information relevant to the whole group can be exchanged quickly between neighboring rumps. Relevant information for the whole group is in particular Sensor information and / or data based on sensor information for which it is for example the lighting situation for a moving vehicle or for a pedestrian, The higher communication speed compared to the prior art is based on the fact that the corresponding information is transmitted bypassing the server either directly via the long distance network to a group controller of a neighboring group, or directly via the short distance network to a control module of a neighboring group.
    This Information can in particular be sent directly by the control module whose sensor has produced the information. For the protocol, the server can be informed about the corresponding information.
    Data based on sensor information and relevant to the entire group can be transmitted to a control module of a neighboring group by-bypassing the server, especially in the short distance network, when another band of frequency than that used in the normal operation internal to the group is used. The short distance communication module is preferably capable of multiplexing.
    To avoid false alarms or to optimize the lighting situation, the transmission of sensor information can be done on the basis of an event depending on the manifestation of the event in space and / or in ie time. For example, when only one
    3Ö vehicle is approaching a crossing, no information can be transmitted whereas if two vehicles had more appear whose manifestation is for example reported to the same group controller by
    BE2015 / 5019 different sensors, this controller transmits the information to a neighboring group and the brightness of the lamps of the different groups is increased.
    On the server side, it is advantageous that the control modules can be selected independently of the group in the corresponding software to exchange relevant data for the whole group. This selection can be supported by graphics so that the control modules which have to exchange their sensor information are, for example, identified on an entire cavity. Large crossings equipped with control modules belonging respectively to different groups bordering on neighboring groups can thus be identified so as to be able to rapidly increase the light intensity in the driving direction of a vehicle on approach, H goes without saying that this selection and the associated communication partner are communicated to the identified members of the corresponding groups, for example in the form of a list,
    Due to the redundant structure of the corresponding control modules in a group, a new group controller can be easily determined on the server in the event of a group controller failure. Once the new group controller is known to the health of a group, that is to say at the level of the short distance communication network (PAN ~ Personal Area Network), the connection of the other control modules does not been defined as group controller is done precisely by it. A system command on the server as well as monitoring of the dull sys25 on the server can therefore always be kept in this way. Since there is only one active command module (group controller) per group, the costs are simultaneously significantly lower than when all the command modules communicate separately with the server via their long remote module corresponding,
    The Group's internal network structure as a mesh network makes operational reliability and / or communication at PAN level also more secure against failures.
    BE2015 / 5019
    Insofar as “in which” is used above or below to explain process steps, this does not necessarily imply the existence of a simultaneity of the process steps read. They can take place simultaneously (without this being an obligation).
    By server, It is not necessary to understand separate IT resources at the hardware level, but H can also be a separation simply linked to the project in a remote management program. It can also be virtual servers on the same hardware or in a cloud.
    To restore the mesh network, it may be advantageous for the server to transmit data relating to the different members of the group to the corresponding group controller, and for this controller to determine himself as group controller in relation to the other members of the group. As a variant or in addition, data on the communication route and / or on the desired group controller can be made available to other members of the group so that communication can be carried out without problem with the server as well as on the whole group.
    Consequently, it may be for the information made available to the information server for the control modules for which these are informed of the neighboring control modules of the same group. At the server level, this data can be extracted for example by taking into account the geographic coordinates of the different control modules.
    To notify operator personnel of successful commissioning, for example successful integration of a control module in the group network or successful contact with a server, when installing a new lamp, a new control module and / or after maintenance operations on the corresponding lamp, the control module, after reaching the desired state,
    BE2015 / 5019 »* b c zo can control the lamp with different brightnesses over a predefined period of time or that can be defined.
    Preferably, at least one of the control modules receives from the server after the first installation and / or a new installation, not only information relevant for the transmission of information to the whole group, month also comprising a group of parameters. to control the lamp. Here it can be for example variation curves.
    So that the network can be established as quickly as possible and without delay, the control modules can automatically scan the network at a short distance after the first activation to search for other control modules and thus create an internal neighborhood table containing the following neighbors in the short distance network, The list can be communicated later to a server. After the establishment of a mesh network and the allocation of the group controller, this neighborhood information can in particular be transmitted to the server with other information specific to the lamps and / or to the control module.
    Optimal communication, that is to say rapid and internal to the group, is in particular obtained when, as a function of a number of new control modules, a request from the control modules of a group concerning the environment of the Control modules based on the short distance network are made at a predefined time and / or on the basis of an initialization at the server level. It may be relevant here to limit short-term communication in the mesh network on the group controller towards the server and only allow observation and communication with the next neighbor in the mesh network on the basis of the module â short distance and the corresponding protocol. This will be used to create tables and / or neighborhood lists, in which information related to the Signal strength and / or the quality of the connection with the corresponding neighbors can be recorded simultaneously. This information can be saved
    BE2015 / 5019 (in the buffer memory) and then be transmitted either directly to the server in the case of activation of all long distance communication modules of the control modules, or via the group controller.
    To allow the server to properly select the group controller and create the group in an optimal manner, it may be advantageous that the; corresponding control modules can record and memorize, during a scanning operation, data relating to their UID in the long distance network, their IP address in the long distance network, their UID in the short distance radio network, information specific to the lamp, data from a number of neighbors in the short distance network, in particular up to 50 neighboring control modules, preferably up to 10, in the short distance network, including any UID and / or connection quality belonging to the neighboring control modules and then transmit this information (data) to the server at a given time via the group controller. As long as the control module is active, that is to say when it is provided with activated access to the long distance network, the server can also receive Inior20 mations directly from the control module.
    The commissioning of the network and / or the distribution of groups and / or group controllers on the server is then preferably done in an automated manner. As a variant or in addition, the distribution of groups and / or group controllers remains variable depending on user input, This is for example advantageous Iorsgu'because of a program running on the server, a group controller is not clearly chosen.
    To maintain latency in the network at a desired level, a number of predefined control modules is assigned to each group, preferably at the server level, in which 200 control modules can represent an upper limit. A test and simulation with up to 2000 lamps demonstrated
    BE2015 / 5019 that the number of larger network groups was too large to guarantee correct operation and regular monitoring of the network status
    Preferably, the number is less than 150 control modules per group, in particular Less than 50 control modules,
    The selection of the group controller and / or the allocation of control modules to the different groups can in particular be done taking into account at least one of the rules for:
    - the ratio of active to inactive control modules,
    - the availability of neighbors in the short distance network,
    - the number of network malfunctions, changes to the network (new control modules compared to the modules removed),
    - changes in the quality of connection in the short distance network;
    - the estimated connection costs compared to the long distance network operator,
    - communication of sensor data between neighboring groups,
    - Internal latency in the group (also delay depending on the distance),
    - backup options (replacement of controllers for 25 faulty groups) and / or
    - for a stabilization element to take account of the attenuation based on time.
    Preferably, the control rooms are represented and linked by an artificial intelligence. These rules can be implemented simply on the basis of logical connectors such as AND / OR / NOR connectors.
    BE2015 / 5019
    Furthermore. operational reliability is higher when at least one replacement group controller is defined on the server using regulation strategies, which server switches from a suspended state to active mode in the event of failure of the group controller current.
    In order to be able to register the information of the environment of the short distance network and the communication in the short distance network for normal operation (communication with the server) without problem, it may be advantageous for the corresponding communion to be made in the remote network bends on different frequency bands of the same network. The same antennas can preferably be used for this purpose (multiplexing mode).
    The network according to the invention, designed as indicated ol above and below, also has the corresponding advantages.
    The following description of the figures details other advantages and details of the invention. The figures shown schematically illustrate:
    Fig, 1 a network according to the invention,
    G Fig. 2 another network according to the invention,
    Fig, 3 a part of an object according to the invention according to the fia. 2.
    Fig .. 4 part of an object according to the invention according to fig. 2,
    Different technical characteristics of the exemplary embodiments described below can also be combined in association with the exemplary embodiments described above as well as with the characteristics of the independent claims and possible other claims relating to the objects according to the invention.
    Insofar as this is relevant, elements having the same functionalities are provided with identical reference numbers,
    BE2015 / 5019
    In accordance with the method according to the invention, a number of control modules 1 are respectively assigned to one group controller 2 according to FIG. 1. On the hardware plan, the group controller 2 is constructed in the same way as the modules 1 of ordered. However, only the corresponding group controller 2 is able to interact with a server 4 over a long distance connection 3. This is typically an access to a local mobile data network provider via which the server is then available on the basis of IP-WAN. The communication between the server and the group controllers can for example come to life using a classic internet protocol (TCP / IP).
    Within a group 7 t the control modules communicate with each other connection guards 6 at short distance, this is preferably a communication on the basis of a ma network network based on IEEE802. 15.4.0, ex. ZigBee,
    The corresponding groups 7 of the control modules 1, 2 cannot generally be seen on the whole group and can thus interfere with each other, it can nevertheless be provided for communications on the whole group that modules neighboring control units can share and / or exchange or transmit with one another data from a sensor or corresponding information on the entire group by means of a short-distance connection 8. He can! follow actions such as increasing the light intensity. As a variant, this communication can also be done by the controllers 2 of corresponding groups which can be seen on the Internet or in the Intranet by their IP address. The information on such and such a control module to communicate with such and such a control module and / or the way in which this module must communicate is defined by the server and can be sent over the entire group, in particular by a unit. multiplexing of each control module, for example in the case of short distance communication.
    BE2015 / 5019
    According to another exemplary embodiment of the invention at Hour 2, a plurality of lamps is arranged along a route 24 with corresponding control modules 23 and 23 ′. The lamps are part of a group of lamps and / or control modules A predefined by the server. Group A is just as identifiable as group B thanks to the dotted lines 26 and / or 27 Lamps with corresponding control modules 28 and / or 28 'which mark out a transverse street 29 opening into street 24 are part of group 8. Circles 31 and 32 Internal black characterize a lamp with an active control module, a group controller. The sensors SI and 32 are assigned to the corresponding control module 23 and / or 28. Radar sensors, Infrared sensors (in particular passive infrared sensors) or even Inductive loops in the street 24 and / or 29 are taken into account to serve as sensors. They detect an approaching object, then the control modules adapt the light of the corresponding lampposts of the group to the situation that this app internally to the group or on all the groups.
    An object on approach, p. ex. a vehicle, is detected for example by the module 23 for controlling the floor lamp fitted with the sensor
    31, the light of group A is increased via the modules 23 and 23 'of control ei this Intormabon or the information on the vehicle er approach is transmitted to the group controller 28 'of group 8 via the group controller 23'. Furthermore, the brightness in group 8 is also suitable for your lamps 28 and / or 23 'which are relevant, that is to say selected on the server. As a variant, ie control module 23 equipped with the sensor SI can also communicate directly with the group controller of group B or with the other module 28 and / or 28 'for controlling a floor lamp allocated to it, after which the information is distributed in the network and the corresponding reaction takes place in group B,
    The server can proceed to the allocation to a first group of the various control modules and therefore corresponding street lamps BE2015 / 5019 which must be supplied with information from a sensor of a neighboring group and via which the information is transmitted over the 'all groups. Corresponding input masks are available for this purpose, in particular on the server.
    A control module according to the invention with which the method described below must be converted can preferably be used as a separate unit on a lamp head, for example a floor lamp (see fiq. 4). Certain main back parts of a control module that can be used externally are shown more precisely in FIG. 3. In the exploded view, the control module comprises an upper housing part 33 as well as a lower housing part 34. The lower part of the housing must be fixed by a gasket 35 on a base to be placed on the upper face of the lamp. The connection to the base is ensured by contacts 37 which rotate like bayonets. The contacts 37 are fixed in a bet in the housing 34 and on the other hand support a unit 38 of central plate. A controller 39, a short distance and long distance communication module and an acceleration sensor unit 41 are in particular placed thereon to detect waves, in particular seismic.
    An RFID reader which can be placed in a base on the body side of the lamp to record data specific to the lamp of an RFID transponder in the near field as well as an infrared sensor 50 connected by a cable 40 are not shown in ia
    A lamppost from one of the networks according to the invention from ia • fig. 1 or 2 can be fixed by way of example as indicated in FIG. 4 by lean concrete 44, a foundation tube 45 as well as by a dense filling material 46. Possible acceleration sensors available in or on the lamp head 48 in the control module may well record using the mast 49 your seismic waves propagating in itself or along its surface. Possible approaching vehicles can be identified by a 50 passive infrared sensor connected
    BE2015 / 5019 to module 2 of the command produced here in the form of a group controller. In addition, other sensors such as brightness and temperature sensors may be available on the lamp head 48.
    BE2015 / 5019
    权利要求:
    Claims (9)
    [1]
    Claims
    1. Method for managing, in particular for controlling a network of lamps, in particular street lamps, with a plurality of control modules, in which each of the control modules is respectively assigned to a lamp and the control module includes respectively;
    - a long distance communication module,
    - an elbow remote communication module,
    - preferably a near field communication module,
    - a geolocation module,
    - a controller,
    - a control output to control a lamp driver, in which at least one control module is provided with at least one sensor, with at least one server which can be reached via the long distance communication module,
    - in which the control modules are divided into several groups of control modules on the basis of the control module, environment and / or lamp information made available by the control modules,
    - one of the control modules of each group being selected to serve as group controller with which the other control modules of this group can communicate using their short distance communication modules,
    - the control modules in the groups forming a short distance network, preferably in the form of a mesh network, by means of the corresponding short distance communication modules,
    - in the operating state of the network, only the group controller (2.23 ', 28') transmits to the server (4) its own information, as well as information on the environment, lighting,
    BE2015 / 5019 and / or control module received by the other control modules (1,23,28) through the short distance communication module, in which the data based on the sensor information with interest for the the whole group is transmitted in contour5 nant the server either directly via the long distance network to a group controller of a neighboring group and from there are transmitted to a control module of this group, or directly via the short distance network to a control module of a neighboring group.
    [2]
    2. Method according to claim 1, characterized in that
    10 that the communication of the relevant data for the whole group is done via the short distance network on a different frequency band than the normal functioning internal to the group.
    [3]
    3. Process according to claim 1 or 2, characterized in that the transmission 1 sensor information on the basis of a événe15 ment is based on the event of the event in space and / or time .
    [4]
    4. Method according to any one of the preceding claims, characterized in that a selection of the control modules independently of the group for exchanging data with a
    20 interest in the whole group can be done at the server level.
    [5]
    5. Method according to any one of the preceding claims, characterized in that the recording of the information of the environment in the short distance network and the communication in the short distance network for normal operation is done on different bands. short range network frequency
    [6]
    6. Method according to claim 5, characterized in that the same antenna is used for the different frequencies.
    [7]
    7. Method according to any one of the preceding claims, characterized in that the sensor is produced in the form of an infrared, acoustic, movement and / or vibration sensor.
    BE2015 / 5019
    [8]
    8. Array of lamps, formed by a method according to any one of the preceding claims.
    BE2015 / 5019
    ms, · / • Vf
    Μ ,,
    ... Λ ^ Χχχ.
    • £ χ-χ
    'ΧχΛ χ
    Κ
    χχ.Ή pW / '' X.
    νχ Χν.
    ’'V,
    Z S ^ v Χχ.
    ^ Χχ ..
    * ^ χ
    X
    4-7
    , χ,). · '
    X.
    χ.

    1
    '--AT'
    Γ '- ^ χχ' Χ 5 .. ·> , # /. . χχχ * << “· * χχ * mU <ζγΧ>
    .. • SS · "'
    %
    Β <
    $. * < ν .- ΧΧΛ
    ΪΧ
    %
    Β
    AT. ' Χχ ν ρ ·· χ, · ''
    Y
    J $ v ·> χ, Χ Χχ <y
    7 ΎΥ *
    BE2015 / 5019
    V. 'j
    BE2015 / 5019
    BE2015 / 5019 •• ’S ί
    BE2015 / 5019
    Summary pioitation and the of an iimpes network
    The present invention relates to a method for operating and controlling a network of lamps comprising a plurality of lamps arranged in a number of groups (A, 8} using a short distance network. Each lamp comprises a control module (23, 23) for control its normal operation and for distance elbow communications on the
    [9]
    10 short distance network with a designated group controller (232 282 31, 32) and other control modules within the group. Each group controller (232 232 31, 32) -designated also works for long distance communications with a central server and -transmits its own specific information as a control module within the
    1st group. Information relating to more than one group can quickly be exchanged between adjacent groups on a long distance network via the group controller of adjacent groups, going beyond the central server, or directly over a short distance connection to a communication module. control of an adjacent group. Failure
    20 of a group controller (232 232 31, 32) can be managed by designating another control module (23, 28) within the group such as a new group controller and the flexible short distance network is reformed around of a new group controller, cm 2) '* ϊΐ ^
    Date: 09.21.15 Reference: PAT2504827EP00 Application n ° 14192582.3 -1802 Submitter: Schreder
    Communication
    The enlarged European search report is attached.
    The extended European search report includes, in accordance with rule 62CBE, the European search report (R61CBE) or the partial European search report / the declaration that a search is impossible (R63CBE) and the opinion accompanying the search report European.
    Copies of the documents cited in the European search report are attached.
    / 0 additional copy (s) of these documents is (are) also attached.
    The following data has been approved:
    / Abstract S Title o The abstract having been modified, the final text is attached to this notification.
    The following figure (s) will be published with the abstract: 2
    Refund of the search fee
    If the conditions of article 9 of the Tax Regulations justify it, a separate notification from the Filing Section regarding the refund of the tax will be sent to you later.
    If you wish to continue the application procedure during the examination phase, your attention is drawn to the provisions of Rule 70a EPC. An invitation to respond to the enlarged European search report will be issued after the date on which the European Patent Bulletin mentions the publication of the European search report (R69 (l), R70 (2) EPC)
    类似技术:
    公开号 | 公开日 | 专利标题
    BE1022665B1|2016-06-29|Control module for controlling a lamp, in particular a street lamp, and lamp network
    BE1024693B1|2018-05-23|Method for the management and control of a lamp network
    US11175653B2|2021-11-16|Systems for data collection and storage including network evaluation and data storage profiles
    US11256243B2|2022-02-22|Methods and systems for detection in an industrial Internet of Things data collection environment with intelligent data collection and equipment package adjustment for fluid conveyance equipment
    US11106199B2|2021-08-31|Systems, methods and apparatus for providing a reduced dimensionality view of data collected on a self-organizing network
    US20200225655A1|2020-07-16|Methods, systems, kits and apparatuses for monitoring and managing industrial settings in an industrial internet of things data collection environment
    US20190324439A1|2019-10-24|Data monitoring systems and methods to update input channel routing in response to an alarm state
    BE1023601B1|2017-05-12|Method for establishing and managing a lamp network
    BE1023533B1|2017-04-25|METHOD FOR DETECTION OF EARTHQUAKES AND LOCATION OF EPICENTERS WITH A LAMP NETWORK
    EP2251706B1|2016-10-12|Optimised multi-static surveillance system
    FR3014634A1|2015-06-12|COMMUNICATING LIGHTING SYSTEM
    EP2237126A1|2010-10-06|Method of managing alert signals in an aircraft and apparatus therefor
    FR2962619A1|2012-01-13|DEVICE FOR ACCESSING DATA ON BOARD AN AIRCRAFT
    FR2893169A1|2007-05-11|DEVICE FOR MONITORING A SENSITIVE OBJECT SUCH AS AN AIRCRAFT AND METHOD OF CONDUCTING IT
    EP1986174A1|2008-10-29|Installation designed for identifying and managing mobile elements
    EP3053282A2|2016-08-10|Aircraft cabin management system for confort equipment using near field communications.
    EP3540708B1|2021-09-15|Interface device for radio with digital remote control
    FR2948497A1|2011-01-28|AUTOMATIC LOCATION OF PHOTOVOLTAIC MODULES IN A PHOTOVOLTAIC FIELD
    US20210150910A1|2021-05-20|Dynamic autonomous vehicle mutuality support for autonomous vehicle networks
    US20140365323A1|2014-12-11|Kiosk system for providing information and services description
    FR3098368A1|2021-01-08|CCTV device with cameras and electronics embedded in streetlights
    FR3103073A1|2021-05-14|MULTIMEDIA SERVER INTENDED TO BE ON BOARD AN AIRCRAFT, ELECTRONIC ENTERTAINMENT SYSTEM INCLUDING SUCH SERVER, SOFTWARE CONFIGURATION PROCESS FOR SUCH SERVER AND ASSOCIATED COMPUTER PROGRAM
    WO2020193573A1|2020-10-01|Multimedia server intended to be installed on board an aircraft, electronic entertainment system comprising such a server, method for updating such a server and associated computer program
    FR3026263A1|2016-03-25|MODULAR LIGHTING SYSTEM COMPRISING A SET OF LIGHTING MODULES AND A CONTROL MODULE FOR MANAGING LIMITED INTENSITY OF LIGHTING MODULES
    FR3033200A1|2016-09-02|INSULATED SITE MONITORING SYSTEM AND RELATED MONITORING METHOD
    同族专利:
    公开号 | 公开日
    DK3018980T3|2020-03-23|
    PT3018980T|2020-04-02|
    AU2015345154B2|2021-01-21|
    WO2016075144A1|2016-05-19|
    US20180288853A1|2018-10-04|
    KR20170091625A|2017-08-09|
    RS60027B1|2020-04-30|
    EP3018980A1|2016-05-11|
    AU2015345154A1|2017-06-29|
    ES2779752T3|2020-08-19|
    US10609793B2|2020-03-31|
    CN107006103B|2019-03-26|
    HUE049427T2|2020-09-28|
    JP2017533567A|2017-11-09|
    EP3018980B1|2020-01-01|
    PL3018980T3|2020-06-29|
    US20190335569A1|2019-10-31|
    US10375801B2|2019-08-06|
    CN107006103A|2017-08-01|
    JP6715245B2|2020-07-01|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US1267A|1839-07-29|Machine for cleaning railroad-tracks |
    WO2009003279A1|2007-06-29|2009-01-08|Carmanah Technologies Corp.|Intelligent area lighting system|
    US20100123570A1|2008-11-17|2010-05-20|Vns Portfolio Llc|Localized Control Method and Apparatus|
    CN101477581B|2008-12-19|2011-05-04|上海理工大学|Multi-agent area road intersection signal integrated control simulation system|
    EP2262350A1|2009-06-10|2010-12-15|iLEDs GmbH|Lighting unit, network of lighting units and method for controlling the light intensity of a lighting network comprising at least one lighting unit|
    US9485843B2|2009-11-02|2016-11-01|Samsung Electronics Co., Ltd.|Lighting control apparatus|
    CA2791924A1|2010-03-01|2011-09-09|Led Roadway Lighting Ltd.|Gps-based streetlight wireless command and control system|
    US9125255B2|2012-05-03|2015-09-01|Abl Ip Holding Llc|Networked architecture for system of lighting devices having sensors, for intelligent applications|
    US8975827B2|2012-07-01|2015-03-10|Cree, Inc.|Lighting fixture for distributed control|
    CN103687200A|2012-09-12|2014-03-26|赛西蒂系统股份有限公司|Networked lighting infrastructure for sensing applications|
    JP6103900B2|2012-11-29|2017-03-29|上田日本無線株式会社|Lighting control apparatus, lighting apparatus, program, lighting control method, and lighting system|
    EP2974552A4|2013-03-06|2016-12-28|Meadowstar Entpr Ltd|Wireless controlled light sources|
    US10499477B2|2013-03-18|2019-12-03|Signify Holding B.V.|Methods and apparatus for information management and control of outdoor lighting networks|
    CN105191505B|2013-03-18|2019-01-15|飞利浦灯具控股公司|The method and apparatus of information management and control for outdoor lighting network|
    CN203851324U|2014-03-12|2014-09-24|湖南中能力华新能源技术有限公司|An intelligent street lamp green illumination management and control system based on Internet of Things technology|
    CN203827564U|2014-03-28|2014-09-10|吴庆|LED solar street lamp monitoring and management system based on wireless sensing network|NL2023556B1|2019-07-23|2021-02-10|Schreder Sa|Communication device|
    NL2025706B1|2020-05-29|2022-01-13|Schreder Sa|Luminaire system and network of luminaire systems for disinfecting areas|
    NL2025801B1|2020-06-10|2022-02-16|Schreder Sa|Power cutoff message handling|
    法律状态:
    2018-07-25| FG| Patent granted|Effective date: 20180523 |
    优先权:
    申请号 | 申请日 | 专利标题
    EP14192582.6|2014-11-10|
    EP14192582.6A|EP3018980B1|2014-11-10|2014-11-10|Method for operating and controlling a network of lights|
    [返回顶部]