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WO2020078535A1 - Device management for hybrid elevator environments - Google Patents

Device management for hybrid elevator environments Download PDF

Info

Publication number
WO2020078535A1
WO2020078535A1 PCT/EP2018/078149 EP2018078149W WO2020078535A1 WO 2020078535 A1 WO2020078535 A1 WO 2020078535A1 EP 2018078149 W EP2018078149 W EP 2018078149W WO 2020078535 A1 WO2020078535 A1 WO 2020078535A1
Authority
WO
WIPO (PCT)
Prior art keywords
device management
elevator
protocol
network
peripheral
Prior art date
Application number
PCT/EP2018/078149
Other languages
French (fr)
Inventor
Santtu KOSKINEN
Mikko PIIRONEN
Anssi Rantamäki
Mikko Heiskanen
Ari Koivisto
Mikko Mattila
Original Assignee
Kone Corporation
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Kone Corporation filed Critical Kone Corporation
Priority to EP18788749.2A priority Critical patent/EP3868055A1/en
Priority to PCT/EP2018/078149 priority patent/WO2020078535A1/en
Priority to CN201880098666.1A priority patent/CN112840599B/en
Priority to AU2018445604A priority patent/AU2018445604B2/en
Publication of WO2020078535A1 publication Critical patent/WO2020078535A1/en
Priority to US17/205,572 priority patent/US20210221642A1/en

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66BELEVATORS; ESCALATORS OR MOVING WALKWAYS
    • B66B1/00Control systems of elevators in general
    • B66B1/34Details, e.g. call counting devices, data transmission from car to control system, devices giving information to the control system
    • B66B1/3415Control system configuration and the data transmission or communication within the control system
    • B66B1/3446Data transmission or communication within the control system
    • B66B1/3453Procedure or protocol for the data transmission or communication
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L41/00Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
    • H04L41/02Standardisation; Integration
    • H04L41/0226Mapping or translating multiple network management protocols
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66BELEVATORS; ESCALATORS OR MOVING WALKWAYS
    • B66B1/00Control systems of elevators in general
    • B66B1/34Details, e.g. call counting devices, data transmission from car to control system, devices giving information to the control system
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66BELEVATORS; ESCALATORS OR MOVING WALKWAYS
    • B66B1/00Control systems of elevators in general
    • B66B1/34Details, e.g. call counting devices, data transmission from car to control system, devices giving information to the control system
    • B66B1/3415Control system configuration and the data transmission or communication within the control system
    • B66B1/3423Control system configuration, i.e. lay-out
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66BELEVATORS; ESCALATORS OR MOVING WALKWAYS
    • B66B1/00Control systems of elevators in general
    • B66B1/34Details, e.g. call counting devices, data transmission from car to control system, devices giving information to the control system
    • B66B1/3415Control system configuration and the data transmission or communication within the control system
    • B66B1/3446Data transmission or communication within the control system
    • B66B1/3461Data transmission or communication within the control system between the elevator control system and remote or mobile stations
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66BELEVATORS; ESCALATORS OR MOVING WALKWAYS
    • B66B5/00Applications of checking, fault-correcting, or safety devices in elevators
    • B66B5/0006Monitoring devices or performance analysers
    • B66B5/0018Devices monitoring the operating condition of the elevator system
    • B66B5/0025Devices monitoring the operating condition of the elevator system for maintenance or repair
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L41/00Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
    • H04L41/02Standardisation; Integration
    • H04L41/022Multivendor or multi-standard integration

Definitions

  • the present invention relates to device management for hybrid elevator environments, and more precisely to an elevator system for a hybrid elevator sig nalling network, the system comprising device management equipment.
  • an elevator environment comprised proprietary devices of the manufacturer of elevators used in the elevator environment. Such devices use the same, usually proprietor -specific, network management protocol for sig nalling to a device management.
  • elevator environments are evolving to hybrid environments, in which devices are from different manufacturers, including different off the shelf devices. Such devices may use different network management protocol (s) than the proprietary devices and/or different device management tool(s), not interoperable with the device management for the propriety devices. That results to an elevator environment with separate device managements, or de vices not under any kind of device management, thereby making the device man agement of a hybrid elevator signalling network difficult.
  • An aspect provides an elevator system for a hybrid elevator network, the system comprising: one or more devices forming a first subnetwork of the hy brid elevator network; a data storage comprising, as network information, pre-set information on the one or more devices forming the first subnetwork; device man agement equipment for elevator device management, the device management equipment being configured to use for device management messages at least one or more first protocols and to update and retrieve information from the data stor age; one or more second subnetworks of the hybrid elevator network, a second subnetwork comprising one or more peripheral devices, a peripheral device in a second subnetwork being configured to use a second protocol for device manage ment messages; at least one converter for converting device management mes sages according to the second protocol to be according to a first protocol before the device management messages reach the device management equipment; wherein the device management equipment is configured to update, in response to receiv ing a device management message containing, as device information, at least an identifier of a peripheral device, the network information in the data storage to
  • At least one of the one or more second subnetworks comprises one or more switches, a switch having a connection to the device management equipment and to which switch peripheral devices are connectable, wherein the switch is configured to send, in response to a peripheral device connecting to the switch or disconnecting from the switch, a device manage ment message according to one of the one or more first protocols, the device man agement message comprising, as device information, identifiers of each peripheral device connected to the switch.
  • the one of the one or more first protocols is the Simple Network Management Protocol.
  • a peripheral device is con figured to register itself to the device management equipment by sending, as device information, at least its identifier in a device management message created accord ing to the second protocol.
  • the peripheral device further comprises the converter and is configured to convert the device manage ment message to be in accordance with at least one of the one or more first proto cols before sending the device management message.
  • the converter is a net work entity between the network management equipment and the peripheral de vice and is configured to convert the device management message to be in accord ance with at least one of the one or more first protocols.
  • the at least one of the one or more first protocols includes the Simple Network Management Protocol, the Mes sage Queuing Telemetry Transport protocol, the Hypertext Transfer Protocol and/or the Hypertext Transfer Protocol Secure.
  • the peripheral device is a multipurpose display or a destination operation panel.
  • the second protocol is a device-specific protocol.
  • the device manage ment equipment is configured to use the network information in the data storage to form one or more topology views illustrating at least part of the elevator net work, which part include at least part of the one or more second subnetworks, cre ated using at least identifiers of peripheral devices; and the elevator system further comprises one or more user interfaces to display the one or more topology views.
  • the identifier is a medium ac cess control address of the peripheral device, or an 1P address of the peripheral device.
  • the device manage ment equipment is further configured to create device management messages ac cording to the first protocol to be transmitted to one or more target devices in a second subnetwork; and the at least one converter is configured to convert a man agement message according to the first protocol to be according to a second proto col used by a target device.
  • the converter is a device management agent dedicated for the peripheral device or a device management agent dedicated for a second subnetwork or a device management agent for the one or more second subnetworks.
  • Another aspect provides a method for a hybrid elevator network, the method comprising: maintaining in a data storage, as network information, pre-set information on one or more devices in the hybrid elevator network; using, by ele vator device management, for device management messages at least one or more first protocols; using, by one or more peripheral devices in the hybrid network, one or more second protocols for device management messages; converting device management messages according to the second protocol to be according to a first protocol before the device management messages reach the elevator device man agement; and updating, in response to receiving a device management message containing, as device information, at least an identifier of a peripheral device, the network information to contain the device information in the device management message.
  • the method further comprises: creating, by a switch in the hybrid elevator network, in response to a peripheral device connecting to the switch or disconnecting from the switch, a device management message ac cording to one of the one or more first protocols, the device management message comprising, as device information, identifiers of each peripheral device connected to the switch; and sending the device management message to the elevator device management.
  • the method further com prises: creating, by a peripheral device, a device management message according to the second protocol, the device management message comprising, as device in- formation, an identifier of the peripheral device; and sending the device manage ment message towards the elevator device management.
  • the method further comprises: creating, by the elevator device management, based on at least identifiers of peripheral devices in the network information in the data storage, one or more topology views illustrat- ing at least part of the elevator network, which part includes at least one peripheral device; and displaying the one or more topology views.
  • the method further comprises: creating, by the elevator device management, device management messages according to the first protocol to be transmitted to one or more target peripheral devices; and con- verting each management message according to the first protocol to be according to a second protocol used by one or more target peripheral device.
  • Figure 1 illustrate exemplified hybrid elevator network
  • FIG. 5 illustrates an example of information exchange
  • Figure 7 illustrate an example of a view
  • Figure 8 is a schematic block diagram.
  • Figure 1 illustrates a simplified elevator system describing only some devices with their logical connections to device management equipment.
  • the illus trated elevator system depicts versatile possibilities available for different imple mentations. Actual realizations may use fewer possibilities and their implementa tion may deviate from what is presented.
  • the general devices, elements and func tions of elevator systems, details of which also depend on the actual type of an ele vator system, are known to those skilled in the art, so that a detailed description thereof is omitted herein.
  • Concepts called cloud computing and/or virtualization may be used as well.
  • the virtualization may allow a single physical computing de vice to host one or more instances of virtual machines that appear and operate as independent computing devices, so that a single physical computing device can cre ate, maintain, delete, or otherwise manage virtual machines in a dynamic manner lt is also possible that device operations will be distributed among a plurality of servers, nodes, devices or hosts ln cloud computing, network devices (devices be longing to a network), computing devices and/or storage devices provide shared resources.
  • Some other technology advancements, such as Software-Defined Net working (SDN), may cause one or more of the functionalities described below to be migrated to any corresponding abstraction or apparatus or device. Therefore, as said above, all words and expressions should be interpreted broadly, and they are intended to illustrate, not to restrict, the embodiment.
  • the elevator system 100 comprises two sub networks 101, 102 of a hybrid elevator signalling network, device management equipment 130 for the hybrid elevator signalling network and a data storage 140 for the device management equipment lt is obvious to a person skilled in the art that the elevator system comprises other devices, elements, functions and struc tures, such as operation elements, control elements, sensors, elevator cars, etc.
  • the more detailed structure of the elevator system is irrel evant to the actual invention, and therefore not described herein.
  • a first subnetwork 101 represents a signal ling network using a first protocol for device management messages (device man agement signalling), below called shortly "messages".
  • the first subnetwork 101 may be a network resembling a traditional elevator environment with devices 110, 111, device information of which is pre-set (preconfigured) to the data storage.
  • the first protocol may be based on proprietor -specific protocol, which may be a non- 1P (lnternet Protocol) based protocol. However, the first protocol may be based on lP-protocol as well, and/or it may be a non-proprietor protocol.
  • one of the illustrated devices in the first subnetwork comprises a converter DMA-n 110-1 for providing centralized conversions from one type of a second pro tocol to the first protocol, and possible vice versa.
  • the converter 110-1 for centralized conversions may be for a specific second sub network, for example for a second sub-network (or sub-networks) in which the peripheral devices use the same second protocol.
  • the converter 110-1 may be ded icated to specific type of peripheral devices, for example for multipurpose panels (using the same second protocol).
  • the second protocol may as well be based on IP- protocol, or non-lP based protocol, and it may be a proprietary protocol or non proprietary protocol.
  • the device 110 comprising the converter 110-1 may be a site controller (S-C), for example.
  • S-C site controller
  • a centralized converter may locate in a network entity in a second subnetwork, or between a first subnetwork and a second subnetwork.
  • a network entity is a manageable logical entity that may locate in a physical device or unite one or more physical devices so that they are seen as one entity.
  • a second subnetwork 102 comprises differ ent peripheral devices 121, 122, 123, 124, and a switch 125. lt should be appreciated that instead of having one second subnetwork 102, the second subnetwork may be logically divided into several second subnetworks in which case a periph eral device, or a switch, may logically belong to several second subnetworks.
  • the peripheral devices in the illustrated example include destination operation panels 121, 123, 124 (DOP1 , DOP2 , DOP3), a multipurpose panel 122 (MPD) and a switch 125 (Switch 1). lt should be appreciated that all of the illus trated peripheral devices are different from each other for illustration purposes only.
  • one 121 of the destination operation panels, DOP1, and the multipurpose panel 122 depict devices that are configured to sup port the integrated device management by adding to corresponding original de vices 121-2, 122-2 corresponding device-specific converters 121-1, 122-1 (DMA1, DMA2) .
  • the device-specific converters may be different from each other, if the orig inal devices are configured to use different second protocols for the device man agement.
  • the switch 125 is a device that connects different peripheral devices to the device management equipment, for example, and allows transparent infor mation exchange (message transmissions) between connected devices that can communicate with each other.
  • the switch 125 may an unmanaged switch, but typ ically in an elevator environment the switch is a managed network switch, man ageable by the device management equipment, for example.
  • the device management equipment 130 may comprise one or more computing devices (not shown separately in Figure 1), with different interfaces (lFs) 131 towards other devices, and one or more displays 133 depicting user in terfaces providing monitor and manipulation possibilities remotely and/or on the site.
  • the device management equipment 130 is configured to run one or more ap plications to monitor and manage remote devices in an elevator environment, us ing device information (network information, also called inventory) in a data stor age, as is known in the art.
  • the de vice management equipment comprises an enhanced topology creation unit (T-C- U) 132, whose functionality will be described with Figures 6 and 7.
  • the data storage 140 stores the device information 141, for example, as part of network information. Some of the device information (network infor mation) may be pre-set information (i.e. information stored before actual installa tion), and some added/updated during the installation, for example, as will be de scribed in more detail with Figures 2 to 4.
  • the data storage 140 may be any kind of conventional or future data repository, including distributed and centralized stor ing of data, managed by any suitable management system forming part of the de vice management.
  • An example of distributed storing includes a cloud-based stor age in a cloud environment (which may be a public cloud, a community cloud, a private cloud, or a hybrid cloud, for example).
  • Cloud storage services may be ac- Waitd through a co-located cloud computer service, a web service application pro gramming interface (API) or by applications that utilize AP1, such as cloud desktop storage, a cloud storage gateway or Web-based content management systems.
  • API application pro gramming interface
  • Cloud storage services may be ac- Waitd through a co-located cloud computer service, a web service application pro gramming interface (API) or by applications that utilize AP1, such as cloud desktop storage, a cloud storage gateway or Web-based content management systems.
  • API application pro gramming interface
  • the device information 141 illustrated in Figure 1 is based on an as sumption that on site the peripheral devices 121, 122, 123, 124 are each connected over a wired connection to the switch 125, which in turn is connected over a wired connection to a site controller and via it to the device management equipment 130, and that a media access control address (MAC address) of a device is used at its identifier.
  • a MAC address identifies a device uniquely, and it is used in Ethernet connections, 1P based (lnternet Protocol based) connections, and non-lP based connections utilising OS1 layers.
  • any other identifier may be used.
  • an 1P address of a device a certificate of a device, a combination of device type and location information, etc.
  • the Ethernet con nection used may be any type of Ethernet, such as a twisted-pair Ethernet, or a fibre optic Ethernet.
  • any other wired connection may be used, or some, or all of of the connections may be wireless ones, i.e. no wired connections exist ln other words, one or more, or all, of the peripheral devices 121, 122, 123, 124 may be connected over one or more wireless connections to the switch 125, and/or the switch 125 may be connected over one or more wireless connections to a site con troller, or corresponding equipment lt should be appreciated that the device infor mation 141 (network information) may also comprise other information, which is not shown.
  • the converters are device man agement agents (DMAs) that are part of device management on site (DMS) system, and they may be configured to convert messages according to any second protocol to messages according to the Message Queuing Telemetry Transport protocol (MQTT), the Hypertext Transfer protocol (HTTP), the Hypertext Transfer Protocol Secure (HTTPS) and/or the Simple Network Management Protocol (SNMP), or other protocol compatible with an elevator device management protocol, and vice versa.
  • DMAs device man agement agents
  • DMS device management on site
  • MQTT Message Queuing Telemetry Transport protocol
  • HTTP Hypertext Transfer protocol
  • HTTPS Hypertext Transfer Protocol Secure
  • SNMP Simple Network Management Protocol
  • any type of a converter can be used, as long as it performs the re quired conversions.
  • peripheral devices 121, 122 each provided with a converter
  • peripheral devices 123 (only one illus trated) using a protocol for which the network is configured to provide a converter 110-1
  • peripheral devices 124 having no converter lt
  • the subnetwork(s) in the elevator environment may comprise only peripheral devices provided with a converter, or peripheral devices and one or more converters in the network, or anything between those solutions and the example of Figure 1.
  • FIG. 2 is a flow chart illustrating a functionality when a peripheral device is installed (added or connected) to the elevator signalling network.
  • the peripheral device When the peripheral device is connected, its registration is triggered. Triggering of the registration causes that the peripheral device creates in step 201 a registration message, which contains at least an identifier of the peripheral device, such as the MAC address.
  • the registration message may contain also some other information inputted to the device either before installation, or on the site during installation. Examples of such information include, for example, the floor on which the periph eral device is installed.
  • the message is created to be in accordance of the protocol (term "second protocol" used herein) the peripheral device is configured to use for network management signalling.
  • the message is converted in step 202 to be accordance of the protocol (first protocol) that is used by the device management equipment for the network management signalling. Depending on implementa tion/embodiment, the conversion may be performed at the peripheral device, or at some entity in the elevator signalling network. Then the converted message is for warded in step 203 to the device management entity to be processed.
  • first protocol the protocol that is used by the device management equipment for the network management signalling.
  • the conversion may be performed at the peripheral device, or at some entity in the elevator signalling network.
  • FIG. 3 is a flow chart illustrating a functionality in a switch, already installed to the elevator signalling network.
  • the switch each time the switch detects in step 301 that a peripheral device is connected to a port of the switch or disconnected from a port of the switch, the switch creates in step 302 an update message, or any corresponding message, that lists, port by port, identifiers of those devices that are connected to the switch. For example, if Ethernet cables are used to connect peripheral devices to the switch, the switch can determine MAC addresses of connected devices, as is known by one skilled in the art.
  • the update message maybe according to SNMP (Simple Network Management Protocol). How ever, any other protocol may be used as well.
  • SNMP Simple Network Management Protocol
  • the update message is forwarded in step 303 to the device management equipment (device management entity) to be processed.
  • Figure 4 illustrates the functionality of the device management equip ment when it maintains the device information (network information) comprising the device information in the database.
  • the device man agement equipment receives in step 401 an update message from a switch or a reg istration message from a peripheral device, it updates in step 402 the device data in the data storage correspondingly.
  • the network management signalling network is a full duplex or a semi-duplex network, comprising bi-directional interfaces that allow message flows to the device management equipment from the peripheral devices, and from the device management equipment to the peripheral devices.
  • the management message passes through a converter, which converts in point 5-2 the management message to be in accord ance with a protocol used by the peripheral device for management messages ln other words, the converter converts the message 5-1 that is according to the first protocol to be according to a second protocol. After conversion, the thus obtained message 5-1’ is forwarded to the peripheral device.
  • the converter may locate in the peripheral device, or in the elevator network. Thanks to that the device management equipment may remote control, configure and/or manipulate the peripheral devices. For example, the device management equipment may send software updates, instructions to configure/reconfigure, commands to boot, etc. to one or more peripheral devices.
  • Figure 6 illustrates a functionality of the device management equip ment, or more precisely the topological creation unit ln response to receiving in step 601 as a user input, for example, a request for a topology view of the elevator system, or part of the elevator system, the identifiers, i.e. MAC addresses, and other device information stored to the database is used in step 602 to create the view.
  • the view is created, or even while it is being created, it is displayed in step 603 on a user interface. This facilitates creation of different views.
  • Figure 7 illustrates an example of such a view, created using the infor mation depicted in Figure 1 for a specific part, which is a riser (riser 1). ln the ex ample it is assumed that device A is a sensor, for example, that is installed on an elevator shaft, and associated in the pre-set information with the riser 1 on the floor 3.
  • the view 700 shows that the switch 1 locates on the floor 5, and devices connected to the switch 1 are DOP1 on the floor 1, found based on MAC1, MPD on the floor 4, found based on MAC2, DOP2, found based on MAC2, without floor information. Further, the view 700 indicates that there is a further peripheral device associated with the switch, but there is no other infor mation than its MAC address, MAC3. However, the peripheral device nevertheless can be shown in the topological view 700, thereby allowing at least its remote mon itoring. Searching for a faulty device on site is much easier, when it is at least known to which switch it is connected to. This in turn helps to minimize the time needed for maintenance, and the time the elevator cannot be used.
  • the device A is shown on the floor 3 in the topological view.
  • This view showing the devices regardless of a subnetwork they belong to, or regardless of the network management message protocol of the device, creates one integrated view for network monitoring. Further, it allows remote controlling, configuring and other manipulation of devices in an elevator signalling network, at least of those devices using the first protocol, or having a converter between the device manage ment equipment and the device.
  • an apparatus implementing one or more functions/operations de scribed above with an embodiment/example, for example by means of any of Fig ures 1 to 7 and any combination thereof comprises not only prior art means, but also means for implementing the one or more functions/operations of a corre sponding functionality described with an embodiment, for example by means of any of Figures 1 to 7 and any combination thereof, and it may comprise separate means for each separate function/operation, or means may be configured to per form two or more functions/operations.
  • one or more of the means and/or a converter and/or a topology creation unit, or any corresponding unit, for one or more functions/operations described above may be software and/or soft- ware-hardware and/or hardware and/or firmware components (recorded indeli bly on a medium such as read-only-memory or embodied in hard-wired computer circuitry) or combinations thereof.
  • Software codes may be stored in any suitable, processor/computer-readable data storage medium(s) or memory unit(s) or arti cle (s) of manufacture and executed by one or more processors/computers, hard ware (one or more apparatuses), firmware (one or more apparatuses), software (one or more modules), or combinations thereof.
  • im plementation can be through modules (e.g., procedures, functions, and so on) that perform the functions described herein.
  • Figure 8 is a simplified block diagram illustrating some units for an ap paratus (device, equipment) 800 comprising a converter and/or the topology cre ation unit, or any corresponding unit or sub-units, or configured otherwise to per form at least some functionality described above, for example by means of any of Figures 1 to 7 and any combination thereof, or some of the functionalities if func tionalities are distributed in the future ln the illustrated example, the apparatus comprises one or more interface (1F) entities 801, such as one or more user inter faces, one or more processing entities 802 connected to various interface entities 801 and to one or more memories 804.
  • interface (1F) entities 801 such as one or more user inter faces
  • processing entities 802 connected to various interface entities 801 and to one or more memories 804.
  • the one or more interface entities 801 are entities for receiving and transmitting information, such as communication interfaces comprising hardware and/or software for realizing communication connectivity according to one or more communication protocols, or for realizing data storing and fetching, or for providing user interaction via one or more user interfaces.
  • the one or more user interfaces may be any kind of a user interface, for example a screen, a keypad, or an integrated display device or external display device.
  • a processing entity 802 is capable to perform calculations and config ured to implement at least a converter and/or the topology creation unit, or any corresponding unit or sub-units, described herein, or at least part of functionali ties/operations described above, for example by means of any of Figures 1 to 7and any combination thereof, with corresponding algorithms 803 stored in the memory 804.
  • the entity 802 may include a processor, controller, control unit, micro-con troller, unit, module, etc. suitable for carrying out embodiments or operations de scribed above, for example by means of any of Figures 1 to 7 and any combination thereof.
  • the processor is a central processing unit, but the processor may be an additional operation processor.
  • a memory 804 is usable for storing a computer program code required for the converter and/or the topology creation unit, or any corresponding unit or sub-units, or for one or more functionalities/operations described above, for ex ample by means of any of Figures 1 to 7 and any combination thereof, i.e. the algo rithms for implementing the functionality/operations described above by means of any of Figures 1 to 7 and any combination thereof.
  • the memory 804 may also be usable for storing other possible information, like the device information.
  • each or some or one of the converter(s), units/sub-units and/or algorithms for functions/operations described herein, for example by means of means of any of Figures 1 to 7 and any combination thereof, may be con figured as a computer or a processor, or a microprocessor, such as a single-chip computer element, or as a chipset, or one or more logic gates including at least a memory for providing storage area used for arithmetic operation and an operation processor for executing the arithmetic operation.
  • Each or some or one of the units/sub-units and/or algorithms for functions/operations described above, for example by means of means of any of Figures 1 to 7 and any combination thereof, may comprise one or more computer processors, application-specific integrated circuits (ASIC), digital signal processors (DSP), digital signal processing devices (DSPD), programmable logic devices (PLD), field-programmable gate arrays (FPGA), and/or other hardware components that have been programmed and/or will be programmed by downloading computer program code (one or more algo rithms) in such a way to carry out one or more functions of one or more embodi ments/examples.
  • ASIC application-specific integrated circuits
  • DSP digital signal processors
  • DSPD digital signal processing devices
  • PLD programmable logic devices
  • FPGA field-programmable gate arrays
  • An embodiment provides a computer program embodied on any client- readable distribution/data storage medium or memory unit(s) or article (s) of man ufacture, comprising program instructions executable by one or more proces sors/computers, which instructions, when loaded into an apparatus (device, equip ment), constitute a converter and/or the topology creation unit, or any correspond ing unit, or an entity providing corresponding functionality, or at least part of the corresponding functionality.
  • Programs also called program products, including software routines, program snippets constituting "program libraries", applets and macros, can be stored in any medium and may be downloaded into an apparatus ln other words, each or some or one of the converters/ units and/or the algorithms for one or more functions/operations described above, for example by means of any of Figures 1 to 7 and any combination thereof, may be an element that com prises one or more arithmetic logic units, a number of special registers and control circuits.

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  • Engineering & Computer Science (AREA)
  • Automation & Control Theory (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Small-Scale Networks (AREA)
  • Computer And Data Communications (AREA)

Abstract

To have an integrated device management for a hybrid elevator environment, at least one converter for converting device management messages according to a second protocol used by one or more peripheral devices to be according to a first protocol, which is used by the device management of the elevator environment, is added to the elevator environment. Further, the device management is configured to update, in response to receiving a device management message containing, as device information, at least an identifier of a peripheral device, network information to contain the device information in the device management message.

Description

DEVICE MANAGEMENT FOR HYBRID ELEVATOR ENVIRONMENTS F1ELD
The present invention relates to device management for hybrid elevator environments, and more precisely to an elevator system for a hybrid elevator sig nalling network, the system comprising device management equipment.
BACKGROUND
Traditionally, an elevator environment comprised proprietary devices of the manufacturer of elevators used in the elevator environment. Such devices use the same, usually proprietor -specific, network management protocol for sig nalling to a device management. However, elevator environments are evolving to hybrid environments, in which devices are from different manufacturers, including different off the shelf devices. Such devices may use different network management protocol (s) than the proprietary devices and/or different device management tool(s), not interoperable with the device management for the propriety devices. That results to an elevator environment with separate device managements, or de vices not under any kind of device management, thereby making the device man agement of a hybrid elevator signalling network difficult.
BRIEF DESCRIPTION
According to an aspect, there is provided the subject matter of the inde pendent claims. Some embodiments are defined in the dependent claims.
An aspect provides an elevator system for a hybrid elevator network, the system comprising: one or more devices forming a first subnetwork of the hy brid elevator network; a data storage comprising, as network information, pre-set information on the one or more devices forming the first subnetwork; device man agement equipment for elevator device management, the device management equipment being configured to use for device management messages at least one or more first protocols and to update and retrieve information from the data stor age; one or more second subnetworks of the hybrid elevator network, a second subnetwork comprising one or more peripheral devices, a peripheral device in a second subnetwork being configured to use a second protocol for device manage ment messages; at least one converter for converting device management mes sages according to the second protocol to be according to a first protocol before the device management messages reach the device management equipment; wherein the device management equipment is configured to update, in response to receiv ing a device management message containing, as device information, at least an identifier of a peripheral device, the network information in the data storage to contain the device information in the device management message.
ln a further aspect of the elevator system, at least one of the one or more second subnetworks comprises one or more switches, a switch having a connection to the device management equipment and to which switch peripheral devices are connectable, wherein the switch is configured to send, in response to a peripheral device connecting to the switch or disconnecting from the switch, a device manage ment message according to one of the one or more first protocols, the device man agement message comprising, as device information, identifiers of each peripheral device connected to the switch.
ln another further aspect of the elevator system, the one of the one or more first protocols is the Simple Network Management Protocol.
ln a still further aspect of the elevator system, a peripheral device is con figured to register itself to the device management equipment by sending, as device information, at least its identifier in a device management message created accord ing to the second protocol.
ln another further aspect of the elevator system, the peripheral device further comprises the converter and is configured to convert the device manage ment message to be in accordance with at least one of the one or more first proto cols before sending the device management message.
ln a still further aspect of the elevator system, the converter is a net work entity between the network management equipment and the peripheral de vice and is configured to convert the device management message to be in accord ance with at least one of the one or more first protocols.
ln a further aspect of the elevator system, the at least one of the one or more first protocols includes the Simple Network Management Protocol, the Mes sage Queuing Telemetry Transport protocol, the Hypertext Transfer Protocol and/or the Hypertext Transfer Protocol Secure.
ln yet a further aspect of the elevator system, the peripheral device is a multipurpose display or a destination operation panel.
ln still a further aspect of the elevator system, the second protocol is a device-specific protocol.
ln another further aspect of the elevator system, the device manage ment equipment is configured to use the network information in the data storage to form one or more topology views illustrating at least part of the elevator net work, which part include at least part of the one or more second subnetworks, cre ated using at least identifiers of peripheral devices; and the elevator system further comprises one or more user interfaces to display the one or more topology views.
ln a further aspect of the elevator system, the identifier is a medium ac cess control address of the peripheral device, or an 1P address of the peripheral device.
ln another further aspect of the elevator system, the device manage ment equipment is further configured to create device management messages ac cording to the first protocol to be transmitted to one or more target devices in a second subnetwork; and the at least one converter is configured to convert a man agement message according to the first protocol to be according to a second proto col used by a target device.
ln a still further aspect of the elevator system, the converter is a device management agent dedicated for the peripheral device or a device management agent dedicated for a second subnetwork or a device management agent for the one or more second subnetworks.
Another aspect provides a method for a hybrid elevator network, the method comprising: maintaining in a data storage, as network information, pre-set information on one or more devices in the hybrid elevator network; using, by ele vator device management, for device management messages at least one or more first protocols; using, by one or more peripheral devices in the hybrid network, one or more second protocols for device management messages; converting device management messages according to the second protocol to be according to a first protocol before the device management messages reach the elevator device man agement; and updating, in response to receiving a device management message containing, as device information, at least an identifier of a peripheral device, the network information to contain the device information in the device management message.
ln a further aspect, the method further comprises: creating, by a switch in the hybrid elevator network, in response to a peripheral device connecting to the switch or disconnecting from the switch, a device management message ac cording to one of the one or more first protocols, the device management message comprising, as device information, identifiers of each peripheral device connected to the switch; and sending the device management message to the elevator device management. ln a still further aspect of the elevator system, the method further com prises: creating, by a peripheral device, a device management message according to the second protocol, the device management message comprising, as device in- formation, an identifier of the peripheral device; and sending the device manage ment message towards the elevator device management.
ln a yet further aspect, the method further comprises: creating, by the elevator device management, based on at least identifiers of peripheral devices in the network information in the data storage, one or more topology views illustrat- ing at least part of the elevator network, which part includes at least one peripheral device; and displaying the one or more topology views.
ln another further aspect, the method further comprises: creating, by the elevator device management, device management messages according to the first protocol to be transmitted to one or more target peripheral devices; and con- verting each management message according to the first protocol to be according to a second protocol used by one or more target peripheral device.
One or more examples of implementations are set forth in more detail in the accompanying drawings and the description below. Other features will be apparent from the description and drawings, and from the claims. BR1EF DESCRIPTION OF DRAW1NGS
ln the following, example embodiments will be described in greater de tail with reference to the attached drawings, in which
Figure 1 illustrate exemplified hybrid elevator network;
Figures 2 to 4 illustrate exemplified processes;
Figure 5 illustrates an example of information exchange;
Figure 6 illustrate an exemplified process;
Figure 7 illustrate an example of a view; and
Figure 8 is a schematic block diagram.
DETA1LED DESCRIPTION OF SOME EMBOD1MENTS
The following embodiments are only presented as examples. Although the specification may refer to "an", "one", or "some" embodiment(s) and/or exam ple (s) in several locations of the text, this does not necessarily mean that each ref erence is made to the same embodiment(s) or example(s), or that a particular fea ture only applies to a single embodiment and/or example. Single features of differ- ent embodiments and/or examples may also be combined to provide other embod iments and/or examples. Manners of device management (network management) and implementing data storages develop constantly. Consequently, all terms and expressions should be interpreted broadly, and they are intended to describe, not to restrict, the invention.
Figure 1 illustrates a simplified elevator system describing only some devices with their logical connections to device management equipment. The illus trated elevator system depicts versatile possibilities available for different imple mentations. Actual realizations may use fewer possibilities and their implementa tion may deviate from what is presented. The general devices, elements and func tions of elevator systems, details of which also depend on the actual type of an ele vator system, are known to those skilled in the art, so that a detailed description thereof is omitted herein. Concepts called cloud computing and/or virtualization may be used as well. The virtualization may allow a single physical computing de vice to host one or more instances of virtual machines that appear and operate as independent computing devices, so that a single physical computing device can cre ate, maintain, delete, or otherwise manage virtual machines in a dynamic manner lt is also possible that device operations will be distributed among a plurality of servers, nodes, devices or hosts ln cloud computing, network devices (devices be longing to a network), computing devices and/or storage devices provide shared resources. Some other technology advancements, such as Software-Defined Net working (SDN), may cause one or more of the functionalities described below to be migrated to any corresponding abstraction or apparatus or device. Therefore, as said above, all words and expressions should be interpreted broadly, and they are intended to illustrate, not to restrict, the embodiment.
ln the example of Figure 1, the elevator system 100 comprises two sub networks 101, 102 of a hybrid elevator signalling network, device management equipment 130 for the hybrid elevator signalling network and a data storage 140 for the device management equipment lt is obvious to a person skilled in the art that the elevator system comprises other devices, elements, functions and struc tures, such as operation elements, control elements, sensors, elevator cars, etc. However, as said above, the more detailed structure of the elevator system is irrel evant to the actual invention, and therefore not described herein.
ln the illustrated example, a first subnetwork 101 represents a signal ling network using a first protocol for device management messages (device man agement signalling), below called shortly "messages". The first subnetwork 101 may be a network resembling a traditional elevator environment with devices 110, 111, device information of which is pre-set (preconfigured) to the data storage. The first protocol may be based on proprietor -specific protocol, which may be a non- 1P (lnternet Protocol) based protocol. However, the first protocol may be based on lP-protocol as well, and/or it may be a non-proprietor protocol.
ln the example of Figure 1, to support an integrated device manage ment, one of the illustrated devices in the first subnetwork comprises a converter DMA-n 110-1 for providing centralized conversions from one type of a second pro tocol to the first protocol, and possible vice versa. Although only one converter is depicted, there may be two or more corresponding centralized type of converters. The converter 110-1 for centralized conversions may be for a specific second sub network, for example for a second sub-network (or sub-networks) in which the peripheral devices use the same second protocol. The converter 110-1 may be ded icated to specific type of peripheral devices, for example for multipurpose panels (using the same second protocol). The second protocol may as well be based on IP- protocol, or non-lP based protocol, and it may be a proprietary protocol or non proprietary protocol. The device 110 comprising the converter 110-1 may be a site controller (S-C), for example. Further, it should be appreciated that a centralized converter may locate in a network entity in a second subnetwork, or between a first subnetwork and a second subnetwork. (A network entity is a manageable logical entity that may locate in a physical device or unite one or more physical devices so that they are seen as one entity.)
ln the illustrated example, a second subnetwork 102 comprises differ ent peripheral devices 121, 122, 123, 124, and a switch 125. lt should be appreci ated that instead of having one second subnetwork 102, the second subnetwork may be logically divided into several second subnetworks in which case a periph eral device, or a switch, may logically belong to several second subnetworks.
The peripheral devices in the illustrated example include destination operation panels 121, 123, 124 (DOP1 , DOP2 , DOP3), a multipurpose panel 122 (MPD) and a switch 125 (Switch 1). lt should be appreciated that all of the illus trated peripheral devices are different from each other for illustration purposes only.
ln the illustrated example, one 121 of the destination operation panels, DOP1, and the multipurpose panel 122, depict devices that are configured to sup port the integrated device management by adding to corresponding original de vices 121-2, 122-2 corresponding device-specific converters 121-1, 122-1 (DMA1, DMA2) . The device-specific converters may be different from each other, if the orig inal devices are configured to use different second protocols for the device man agement.
Further, in the illustrated example, two 123, 124 of the destination op eration panels, DOP2, DOP3, depict original devices, not specifically configured to support the integrated device management. However, they are not of the same type: one 123 of the original devices, DOP2 is configured to use such a second pro tocol for device management that the converter 110-1 in the first subnetwork can provide the integrated device management for it.
The switch 125 is a device that connects different peripheral devices to the device management equipment, for example, and allows transparent infor mation exchange (message transmissions) between connected devices that can communicate with each other. The switch 125 may an unmanaged switch, but typ ically in an elevator environment the switch is a managed network switch, man ageable by the device management equipment, for example.
The device management equipment 130 may comprise one or more computing devices (not shown separately in Figure 1), with different interfaces (lFs) 131 towards other devices, and one or more displays 133 depicting user in terfaces providing monitor and manipulation possibilities remotely and/or on the site. The device management equipment 130 is configured to run one or more ap plications to monitor and manage remote devices in an elevator environment, us ing device information (network information, also called inventory) in a data stor age, as is known in the art. To support the integrated device management, the de vice management equipment comprises an enhanced topology creation unit (T-C- U) 132, whose functionality will be described with Figures 6 and 7.
The data storage 140 stores the device information 141, for example, as part of network information. Some of the device information (network infor mation) may be pre-set information (i.e. information stored before actual installa tion), and some added/updated during the installation, for example, as will be de scribed in more detail with Figures 2 to 4. The data storage 140 may be any kind of conventional or future data repository, including distributed and centralized stor ing of data, managed by any suitable management system forming part of the de vice management. An example of distributed storing includes a cloud-based stor age in a cloud environment (which may be a public cloud, a community cloud, a private cloud, or a hybrid cloud, for example). Cloud storage services may be ac- cessed through a co-located cloud computer service, a web service application pro gramming interface (API) or by applications that utilize AP1, such as cloud desktop storage, a cloud storage gateway or Web-based content management systems. However, the implementation of the data storage, the manner how data is stored, retrieved and updated, and the location where the data are stored are irrelevant to the invention.
The device information 141 illustrated in Figure 1 is based on an as sumption that on site the peripheral devices 121, 122, 123, 124 are each connected over a wired connection to the switch 125, which in turn is connected over a wired connection to a site controller and via it to the device management equipment 130, and that a media access control address (MAC address) of a device is used at its identifier. A MAC address identifies a device uniquely, and it is used in Ethernet connections, 1P based (lnternet Protocol based) connections, and non-lP based connections utilising OS1 layers. Naturally, any other identifier may be used. For example, an 1P address of a device, a certificate of a device, a combination of device type and location information, etc. may be used as an identifier. The Ethernet con nection used may be any type of Ethernet, such as a twisted-pair Ethernet, or a fibre optic Ethernet. Naturally any other wired connection may be used, or some, or all of of the connections may be wireless ones, i.e. no wired connections exist ln other words, one or more, or all, of the peripheral devices 121, 122, 123, 124 may be connected over one or more wireless connections to the switch 125, and/or the switch 125 may be connected over one or more wireless connections to a site con troller, or corresponding equipment lt should be appreciated that the device infor mation 141 (network information) may also comprise other information, which is not shown.
Furthermore, in the illustrated example, the converters are device man agement agents (DMAs) that are part of device management on site (DMS) system, and they may be configured to convert messages according to any second protocol to messages according to the Message Queuing Telemetry Transport protocol (MQTT), the Hypertext Transfer protocol (HTTP), the Hypertext Transfer Protocol Secure (HTTPS) and/or the Simple Network Management Protocol (SNMP), or other protocol compatible with an elevator device management protocol, and vice versa. However, any type of a converter can be used, as long as it performs the re quired conversions.
As a summary, in the illustrated example of Figure 1, there are three different kinds of peripheral devices in the second subnetwork: peripheral devices 121, 122 each provided with a converter, peripheral devices 123 (only one illus trated) using a protocol for which the network is configured to provide a converter 110-1, and peripheral devices (only one illustrated) 124 having no converter lt should be appreciated that the subnetwork(s) in the elevator environment may comprise only peripheral devices provided with a converter, or peripheral devices and one or more converters in the network, or anything between those solutions and the example of Figure 1.
Figure 2 is a flow chart illustrating a functionality when a peripheral device is installed (added or connected) to the elevator signalling network. When the peripheral device is connected, its registration is triggered. Triggering of the registration causes that the peripheral device creates in step 201 a registration message, which contains at least an identifier of the peripheral device, such as the MAC address. The registration message may contain also some other information inputted to the device either before installation, or on the site during installation. Examples of such information include, for example, the floor on which the periph eral device is installed. The message is created to be in accordance of the protocol (term "second protocol" used herein) the peripheral device is configured to use for network management signalling. Then the message is converted in step 202 to be accordance of the protocol (first protocol) that is used by the device management equipment for the network management signalling. Depending on implementa tion/embodiment, the conversion may be performed at the peripheral device, or at some entity in the elevator signalling network. Then the converted message is for warded in step 203 to the device management entity to be processed.
Figure 3 is a flow chart illustrating a functionality in a switch, already installed to the elevator signalling network. Referring to Figure 3, each time the switch detects in step 301 that a peripheral device is connected to a port of the switch or disconnected from a port of the switch, the switch creates in step 302 an update message, or any corresponding message, that lists, port by port, identifiers of those devices that are connected to the switch. For example, if Ethernet cables are used to connect peripheral devices to the switch, the switch can determine MAC addresses of connected devices, as is known by one skilled in the art. The update message maybe according to SNMP (Simple Network Management Protocol). How ever, any other protocol may be used as well. Once the update message has been created, it is forwarded in step 303 to the device management equipment (device management entity) to be processed. Figure 4 illustrates the functionality of the device management equip ment when it maintains the device information (network information) comprising the device information in the database. Referring to Figure 4, when the device man agement equipment receives in step 401 an update message from a switch or a reg istration message from a peripheral device, it updates in step 402 the device data in the data storage correspondingly.
Usually the network management signalling network is a full duplex or a semi-duplex network, comprising bi-directional interfaces that allow message flows to the device management equipment from the peripheral devices, and from the device management equipment to the peripheral devices.
When the device management equipment DM sends a management message 5-1 to a peripheral device PD, the management message passes through a converter, which converts in point 5-2 the management message to be in accord ance with a protocol used by the peripheral device for management messages ln other words, the converter converts the message 5-1 that is according to the first protocol to be according to a second protocol. After conversion, the thus obtained message 5-1’ is forwarded to the peripheral device. As said above, the converter may locate in the peripheral device, or in the elevator network. Thanks to that the device management equipment may remote control, configure and/or manipulate the peripheral devices. For example, the device management equipment may send software updates, instructions to configure/reconfigure, commands to boot, etc. to one or more peripheral devices.
Figure 6 illustrates a functionality of the device management equip ment, or more precisely the topological creation unit ln response to receiving in step 601 as a user input, for example, a request for a topology view of the elevator system, or part of the elevator system, the identifiers, i.e. MAC addresses, and other device information stored to the database is used in step 602 to create the view. When the view is created, or even while it is being created, it is displayed in step 603 on a user interface. This facilitates creation of different views.
Figure 7 illustrates an example of such a view, created using the infor mation depicted in Figure 1 for a specific part, which is a riser (riser 1). ln the ex ample it is assumed that device A is a sensor, for example, that is installed on an elevator shaft, and associated in the pre-set information with the riser 1 on the floor 3.
Referring to Figure 7, the view 700 shows that the switch 1 locates on the floor 5, and devices connected to the switch 1 are DOP1 on the floor 1, found based on MAC1, MPD on the floor 4, found based on MAC2, DOP2, found based on MAC2, without floor information. Further, the view 700 indicates that there is a further peripheral device associated with the switch, but there is no other infor mation than its MAC address, MAC3. However, the peripheral device nevertheless can be shown in the topological view 700, thereby allowing at least its remote mon itoring. Searching for a faulty device on site is much easier, when it is at least known to which switch it is connected to. This in turn helps to minimize the time needed for maintenance, and the time the elevator cannot be used. Naturally, if there is floor information available on the view, the task to find the faulty device is even easier. Further, the device A is shown on the floor 3 in the topological view. This view, showing the devices regardless of a subnetwork they belong to, or regardless of the network management message protocol of the device, creates one integrated view for network monitoring. Further, it allows remote controlling, configuring and other manipulation of devices in an elevator signalling network, at least of those devices using the first protocol, or having a converter between the device manage ment equipment and the device.
As can be seen from the above, there are no restrictions on what the first protocol and the second protocol are, and yet, thanks to the converters, an inte grated device management is achieved. This in turn makes it possible to create scal able, proprietary transparent, hybrid elevator environments whose remote man agement sees the environment as a non-hybrid.
The steps, messages and related functions described above in Figures 2 to 7 are in no absolute chronological order, and some of the steps may be per formed simultaneously or in an order differing from the given one. Other functions can also be executed between the steps/points or within the steps/points. Some of the steps/points or part of the steps/points can also be left out or replaced by a corresponding step or part of the step.
The techniques described herein may be implemented by various means so that an apparatus implementing one or more functions/operations de scribed above with an embodiment/example, for example by means of any of Fig ures 1 to 7 and any combination thereof, comprises not only prior art means, but also means for implementing the one or more functions/operations of a corre sponding functionality described with an embodiment, for example by means of any of Figures 1 to 7 and any combination thereof, and it may comprise separate means for each separate function/operation, or means may be configured to per form two or more functions/operations. For example, one or more of the means and/or a converter and/or a topology creation unit, or any corresponding unit, for one or more functions/operations described above may be software and/or soft- ware-hardware and/or hardware and/or firmware components (recorded indeli bly on a medium such as read-only-memory or embodied in hard-wired computer circuitry) or combinations thereof. Software codes may be stored in any suitable, processor/computer-readable data storage medium(s) or memory unit(s) or arti cle (s) of manufacture and executed by one or more processors/computers, hard ware (one or more apparatuses), firmware (one or more apparatuses), software (one or more modules), or combinations thereof. For a firmware or software, im plementation can be through modules (e.g., procedures, functions, and so on) that perform the functions described herein.
Figure 8 is a simplified block diagram illustrating some units for an ap paratus (device, equipment) 800 comprising a converter and/or the topology cre ation unit, or any corresponding unit or sub-units, or configured otherwise to per form at least some functionality described above, for example by means of any of Figures 1 to 7 and any combination thereof, or some of the functionalities if func tionalities are distributed in the future ln the illustrated example, the apparatus comprises one or more interface (1F) entities 801, such as one or more user inter faces, one or more processing entities 802 connected to various interface entities 801 and to one or more memories 804.
The one or more interface entities 801 are entities for receiving and transmitting information, such as communication interfaces comprising hardware and/or software for realizing communication connectivity according to one or more communication protocols, or for realizing data storing and fetching, or for providing user interaction via one or more user interfaces. The one or more user interfaces may be any kind of a user interface, for example a screen, a keypad, or an integrated display device or external display device.
A processing entity 802 is capable to perform calculations and config ured to implement at least a converter and/or the topology creation unit, or any corresponding unit or sub-units, described herein, or at least part of functionali ties/operations described above, for example by means of any of Figures 1 to 7and any combination thereof, with corresponding algorithms 803 stored in the memory 804. The entity 802 may include a processor, controller, control unit, micro-con troller, unit, module, etc. suitable for carrying out embodiments or operations de scribed above, for example by means of any of Figures 1 to 7 and any combination thereof. Generally the processor is a central processing unit, but the processor may be an additional operation processor.
A memory 804 is usable for storing a computer program code required for the converter and/or the topology creation unit, or any corresponding unit or sub-units, or for one or more functionalities/operations described above, for ex ample by means of any of Figures 1 to 7 and any combination thereof, i.e. the algo rithms for implementing the functionality/operations described above by means of any of Figures 1 to 7 and any combination thereof. The memory 804 may also be usable for storing other possible information, like the device information.
As a summary, each or some or one of the converter(s), units/sub-units and/or algorithms for functions/operations described herein, for example by means of means of any of Figures 1 to 7 and any combination thereof, may be con figured as a computer or a processor, or a microprocessor, such as a single-chip computer element, or as a chipset, or one or more logic gates including at least a memory for providing storage area used for arithmetic operation and an operation processor for executing the arithmetic operation. Each or some or one of the units/sub-units and/or algorithms for functions/operations described above, for example by means of means of any of Figures 1 to 7 and any combination thereof, may comprise one or more computer processors, application-specific integrated circuits (ASIC), digital signal processors (DSP), digital signal processing devices (DSPD), programmable logic devices (PLD), field-programmable gate arrays (FPGA), and/or other hardware components that have been programmed and/or will be programmed by downloading computer program code (one or more algo rithms) in such a way to carry out one or more functions of one or more embodi ments/examples.
An embodiment provides a computer program embodied on any client- readable distribution/data storage medium or memory unit(s) or article (s) of man ufacture, comprising program instructions executable by one or more proces sors/computers, which instructions, when loaded into an apparatus (device, equip ment), constitute a converter and/or the topology creation unit, or any correspond ing unit, or an entity providing corresponding functionality, or at least part of the corresponding functionality. Programs, also called program products, including software routines, program snippets constituting "program libraries", applets and macros, can be stored in any medium and may be downloaded into an apparatus ln other words, each or some or one of the converters/ units and/or the algorithms for one or more functions/operations described above, for example by means of any of Figures 1 to 7 and any combination thereof, may be an element that com prises one or more arithmetic logic units, a number of special registers and control circuits.
Even though the invention has been described above with reference to examples according to the accompanying drawings, it is clear that the invention is not restricted thereto but can be modified in several ways within the scope of the appended claims. Therefore, all words and expressions should be interpreted broadly and they are intended to illustrate, not to restrict, the embodiment lt will be obvious to a person skilled in the art that, as technology advances, the inventive concept can be implemented in various ways. Further, it is clear to a person skilled in the art that the described embodiments may, but are not required to, be com bined with other embodiments in various ways.

Claims

CLA1MS
1. An elevator system for a hybrid elevator network, the system com prising:
one or more devices forming a first subnetwork of the hybrid elevator network;
a data storage comprising, as network information, pre-set information on the one or more devices forming the first subnetwork;
device management equipment for elevator device management, the device management equipment being configured to use for device management messages at least one or more first protocols and to update and retrieve infor mation from the data storage;
one or more second subnetworks of the hybrid elevator network, a sec ond subnetwork comprising one or more peripheral devices, a peripheral device in a second subnetwork being configured to use a second protocol for device manage- ment messages;
c h a r a c t e r i z e d in that
the system further comprises at least one converter for converting de vice management messages according to the second protocol to be according to a first protocol before the device management messages reach the device manage- ment equipment; and
the device management equipment is configured to update, in response to receiving a device management message containing, as device information, at least an identifier of a peripheral device, the network information in the data stor age to contain the device information in the device management message.
2. An elevator system according to claim 1, wherein at least one of the one or more second subnetworks comprises one or more switches, a switch having a connection to the device management equipment and to which switch peripheral devices are connectable, wherein the switch is configured to send, in response to a peripheral device connecting to the switch or disconnecting from the switch, a de vice management message according to one of the one or more first protocols, the device management message comprising, as device information, identifiers of each peripheral device connected to the switch.
3. An elevator system according to claim 2, wherein the one of the one or more first protocols is the Simple Network Management Protocol.
4. An elevator system according to claim 1, 2 or 3, wherein a peripheral device is configured to register itself to the device management equipment by sending, as device information, at least its identifier in a device management mes- sage created according to the second protocol.
5. An elevator system according to claim 4, wherein the peripheral de vice further comprises the converter and is configured to convert the device man agement message to be in accordance with at least one of the one or more first pro- tocols before sending the device management message.
6. An elevator system according to claim 4, wherein the converter is a network entity between the network management equipment and the peripheral device and is configured to convert the device management message to be in ac- cordance with at least one of the one or more first protocols.
7. An elevator system according to claim 5 or 6, wherein the at least one of the one or more first protocols includes the Simple Network Management Pro tocol, the Message Queuing Telemetry Transport protocol, the Hypertext Transfer Protocol and/or the Hypertext Transfer Protocol Secure.
8. An elevator system according to any of the preceding claims, wherein the peripheral device is a multipurpose display or a destination operation panel.
9. An elevator system according to any of the preceding claims, wherein the second protocol is a device-specific protocol.
10. An elevator system according to any of the preceding claims, wherein
the device management equipment is configured to use the network in formation in the data storage to form one or more topology views illustrating at least part of the elevator network, which part include at least part of the one or more second subnetworks, created using at least identifiers of peripheral devices; and
the elevator system further comprises one or more user interfaces to display the one or more topology views.
11. An elevator system according to any of the preceding claims, wherein the identifier is a medium access control address of the peripheral device or an 1P address of the peripheral device.
12. An elevator system according to any of the preceding claims, wherein the device management equipment is further configured to create device management messages according to the first protocol to be transmitted to one or more target devices in a second subnetwork; and the at least one converter is con- figured to convert a management message according to the first protocol to be ac cording to a second protocol used by a target device.
13. An elevator system according to any of the preceding claims, wherein the converter is a device management agent dedicated for the peripheral device or a device management agent dedicated for a second subnetwork or a de vice management agent for the one or more second subnetworks.
14. A method for a hybrid elevator network, the method comprising: maintaining in a data storage, as network information, pre-set infor- mation on one or more devices in the hybrid elevator network;
using, by elevator device management, for device management mes sages at least one or more first protocols;
using, by one or more peripheral devices in the hybrid network, one or more second protocols for device management messages;
c h a r a c t e r i z e d by
converting device management messages according to the second pro tocol to be according to a first protocol before the device management messages reach the elevator device management; and
updating, in response to receiving a device management message con- taining, as device information, at least an identifier of a peripheral device, the net work information to contain the device information in the device management message.
15. A method according to claim 14, the method further comprising: creating, by a switch in the hybrid elevator network, in response to a peripheral device connecting to the switch or disconnecting from the switch, a de vice management message according to one of the one or more first protocols, the device management message comprising, as device information, identifiers of each peripheral device connected to the switch; and
sending the device management message to the elevator device man agement.
16. A method according to claim 14 or 15, the method further compris ing:
creating, by a peripheral device, a device management message accord ing to the second protocol, the device management message comprising, as device information, an identifier of the peripheral device; and
sending the device management message towards the elevator device management.
17. A method according to claim 14, 15 or 16, the method further com prising:
creating, by the elevator device management, based on at least identifi ers of peripheral devices in the network information in the data storage, one or more topology views illustrating at least part of the elevator network, which part includes at least one peripheral device; and
displaying the one or more topology views.
18. A method according to claim 14, 15, 16 or 17, the method further comprising:
creating, by the elevator device management, device management mes sages according to the first protocol to be transmitted to one or more target pe ripheral devices; and
converting each management message according to the first protocol to be according to a second protocol used by one or more target peripheral device.
PCT/EP2018/078149 2018-10-16 2018-10-16 Device management for hybrid elevator environments WO2020078535A1 (en)

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EP3868055A1 (en) 2021-08-25

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