CN105144635A - Shared configuration data in a building automation system controller - Google Patents

Shared configuration data in a building automation system controller Download PDF

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Publication number
CN105144635A
CN105144635A CN201380056350.3A CN201380056350A CN105144635A CN 105144635 A CN105144635 A CN 105144635A CN 201380056350 A CN201380056350 A CN 201380056350A CN 105144635 A CN105144635 A CN 105144635A
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CN
China
Prior art keywords
code
data
mobile
bsis
building automation
Prior art date
Application number
CN201380056350.3A
Other languages
Chinese (zh)
Inventor
C.凯西利
D.A.欣戈斯
M.奥托
S.内格伦
M.维迪亚纳桑
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西门子工业公司
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Publication date
Priority to US201261694436P priority Critical
Priority to US61/694436 priority
Priority to US13/890898 priority
Priority to US13/890,898 priority patent/US20130268128A1/en
Application filed by 西门子工业公司 filed Critical 西门子工业公司
Priority to PCT/US2013/057306 priority patent/WO2014036272A1/en
Publication of CN105144635A publication Critical patent/CN105144635A/en

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L12/00Data switching networks
    • H04L12/28Data switching networks characterised by path configuration, e.g. local area networks [LAN], wide area networks [WAN]
    • H04L12/2803Home automation networks
    • H04L12/2807Exchanging configuration information on appliance services in a home automation network
    • H04L12/2814Exchanging control software or macros for controlling appliance services in a home automation network
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L12/00Data switching networks
    • H04L12/28Data switching networks characterised by path configuration, e.g. local area networks [LAN], wide area networks [WAN]
    • H04L12/2803Home automation networks
    • H04L12/2816Controlling appliance services of a home automation network by calling their functionalities
    • H04L12/282Controlling appliance services of a home automation network by calling their functionalities based on user interaction within the home
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L41/00Arrangements for maintenance or administration or management of packet switching networks
    • H04L41/08Configuration management of network or network elements
    • H04L41/0803Configuration setting of network or network elements
    • H04L41/0806Configuration setting of network or network elements for initial configuration or provisioning
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L41/00Arrangements for maintenance or administration or management of packet switching networks
    • H04L41/08Configuration management of network or network elements
    • H04L41/0803Configuration setting of network or network elements
    • H04L41/084Configuration by copying
    • H04L41/0846Configuration by copying based on copy from other elements

Abstract

An approach for configuration of a second controller in a building automation system (BAS) by sharing a code that may be generated by a first controller in a BAS, but the sharing occurs without a network work connection

Description

Configuration sharing data in building automation system controller

1. technical field

The application relates to the field of building system, and relates more specifically to by the configuration of the parameter used in building automation system.

2. related application

The application is the U.S. Patent application 13/218 being entitled as SYNERGISTICINTERFACESYSTEMFORABUILDINGNETWORK submitted on August 25th, 2011, the U.S. Provisional Patent Application 61/694 being entitled as METHODSOFUSINGQRCODESFORAUTHENTICATIONTOANINFORMATIONSYS TEMVIAAMOBILEDEVICE that on August 29th, 132 and 2012 submits to, the part of 436 continues, and both is all incorporated to herein with it by reference.

3. background technology

Building automation system contains the multiple systems of the various aspects helping the operation of monitoring and controlling building.Building automation system (can also be called " building control system " herein) comprises safety system, condition of a fire safety system, illuminator and heating, ventilation and air conditioning (" HVAC ") system.Illuminator and HVAC system are sometimes referred to as " environmental control system ", because the environmental condition in these Systematical control buildings.Individual facilities can comprise multiple building automation system (such as safety system, condition of a fire system and environmental control system).The individual system had by multiple subsystems of public control station or server controls can be arranged separated from one anotherly or be arranged to multiple building automation system.Public control station or server can depend on implementation and be included in building or away from building.

The element of building automation system can scatter widely throughout facility or garden (campus).Such as, HVAC system comprises the temperature sensor in the almost each region being arranged in facility or garden and Ventilating valve controls and other element.Similarly, safety system can have scatter throughout whole building or garden intrusion detection, motion sensor and alarm actuator.Similarly, condition of a fire safety system comprises the smog alert and pull-station (pullstation) that scatter throughout facility or garden.The zones of different of building automation system can have varying environment and arrange based on the personal like of the people in purposes and those regions (such as office and meeting room).

Building automation system typically has one or more central control station, wherein can monitor data from system and wherein can control and/or the various aspects of surveillance operation.Control station typically comprises the computer or server with processing unit, data storage device and user interface.The control system component scattered to allow monitoring and controlling, building automation system adopts multistage communication network with transfer operation and/or warning information between executive component (such as transducer and actuator) and central control station usually.

An example of building automation system control station is the available Apogee Insight work station of building technology branch of Industrial Co., Ltd of Siemens (" Siemens ") from Illinois Buffalo Ge Luofu, and it can use from the available Apogee building automation system of Siemens together with same.Within the system, some control stations that the network via Ethernet or another type connects can distribute throughout one or more building position, and each has the ability of monitoring and controlling Dynamic System.

Typical building automation system (comprise utilize Apogee Insight work station those) has multiple scenes (field) panel communicated with central control station.Use central control station modify to the one or more parts in the various parts of building automation system and/or change although general, field panel also can operate into permission to some amendment of one or more parameters of system and/or change.This typically comprises the such as parameter of temperature and illumination and so on and/or the change of similar parameters.

Central control station communicates with various field apparatus (being otherwise known as " point ") with field panel.Field apparatus typically communicates with the field panel of building automation system, and operates into measurement, supervision and/or control various building automation system parameter.Example field equipment comprises lamp, thermostat (thermostat), valve actuator, siren, HVAC equipment, sprinkler systems, loud speaker, door lock and other field apparatuss many as the skilled person will recognize.These field apparatuss are from central control station and/or field panel reception control signal.Therefore, building automation system can control the various aspects of building operation by controlling field apparatus.

Large scale business and industrial plants have the many field apparatuss for environmental Kuznets Curves object.In this article, these field apparatuss can be called as " environmental control equipment ".

Due to the ambient As traditionally by using thermostat and switch to carry out set environment control appliance, therefore limited safe can be used for making device security.Known method comprise there is lock lid to prevent the amendment of thermostat or lamp.Recently, adopt wired and wireless network methods, wherein networking or intelligent switch and thermostat accessed and by people via with the computer or wireless device controls of building data network communications to regulate their current present environment, such as office or meeting room.For user, having its environment more multi-control is also close to expect, but the initial configuration controlled for personalized environment is normally complicated and consuming time due to the complexity of nonresidential building automated system.

Although existing structure automated system can allow user to have personalized environmental Kuznets Curves, do not exist for providing the mode to the temporary visit that these control to visitor or grass hand when the action not having keeper.Required is to solve above these difficult problems of identification and the method for problem in the art.

Summary of the invention

According to an embodiment of the present disclosure, provide a kind of network for building automation system independently interface method.User is by using the ambient As that should be used for setting desired by it performed by the processor in mobile computing device or special equipment.Can utilize at first and previously be encoded with the configuration of the code of these data and verify data to configure the application in mobile computing device via reading.Once be configured, then mobile computing device or special equipment are associated with system and can be used.

When setting desired setting in the application via user, machine readable code is just generated and shows on a mobile computing device.Then this code is presented to the reader being connected to building automation system.Reader read code and building automation system to the decoding data be included in code and correspondingly metering needle to located by reader or the environmental Kuznets Curves of position of encoding in code.

There is the user being configured to the mobile device that adjusting ambient controls and can share this configuration with another mobile device.Shared can being included in other mobile device capability of configuration data imposes restriction to revise environmental Kuznets Curves.In addition, realize when not having the access to netwoks via the code shared between mobile device sharing.

With reference to following the detailed description and the accompanying drawings, feature and advantage described above and other side will become more apparent to those of ordinary skill in the art.There is provided the one or more interface system for buildings network in these or other favorable characteristics will be close to expect although provide a kind of, but instruction disclosed herein extends to those embodiments fallen in the scope of claims, and no matter its whether reach in above-mentioned advantage one or more.

Accompanying drawing explanation

Fig. 1 illustrates the exemplary topology figure of the building automation system for having environmental Kuznets Curves access panels;

Fig. 2 illustrates the block diagram of the building automation system of the buildings network of Fig. 1;

Fig. 3 illustrates the example internal block diagram of the field panel of the building automation system for Fig. 2;

Fig. 4 illustrates and to be encoded by mobile device and the parameter do not read with relying on network by building automation system revises the exemplary process flow diagram of building automation system by using;

Fig. 5 illustrates the exemplary front view with the environmental Kuznets Curves access panels of display of the building interface system for Fig. 1;

Fig. 6 illustrates the example internal block diagram of the mobile computing device of the building interface system for Fig. 1;

Fig. 7 illustrates top building thing collaborative interface system (BSIS) graphical user interface appeared on the mobile computing device of Fig. 1;

Fig. 8 illustrates the temperature appeared on the mobile computing device of Fig. 1 and controls submenu graphical user interface;

Fig. 9 illustrates the fan control submenu graphical user interface appeared on the mobile computing device of Fig. 1;

Figure 10 illustrates the Lighting control submenu graphical user interface appeared on the mobile computing device of Fig. 1;

Figure 11 a illustrates the flow chart of the process for BSIS Mobile solution method according to sample implementation;

Figure 11 b continues the flow chart of the process for BSIS Mobile solution method illustrated according to sample implementation;

Figure 12 illustrates the exemplary application of the mobile computing device with the BSIS Mobile solution showing quick response (QR) code read by environment access panel;

Figure 13 illustrates the top layer BSIS graphical user interface appeared at before the configuration according to sample implementation on the mobile computing device of Fig. 1;

Figure 14 illustrates and reads by the exemplary application of the mobile computing device of the BSIS Mobile solution of the QR code of environment access Display panel according to having of sample implementation;

Figure 15 depicts the flow chart configuring BSIS by reading QR code;

Figure 16 illustrates and appears at according to sample implementation the top layer BSIS graphical user interface had on the mobile computing device of sharing capability;

Figure 17 illustrates and appears at according to sample implementation another top layer BSIS graphical user interface had on the mobile computing device of sharing capability;

Figure 18 illustrate according to sample implementation as the shared graphical user interface of a part appearing at the BSIS graphical user interface had on the mobile computing device of sharing capability; And

Figure 19 illustrates the flow chart of the method for ShareBuilder thing automated system (BAS) control information according to sample implementation.

Embodiment

Present the exemplary method for revising ambient As.In this example, user can be arranged in the machine readable code of the reader reading of environmental Kuznets Curves access panels to revise the ambient As of building automation system via generating.Before generation machine readable code, the equipment or the application that generate machine readable code are configured or are filled with configuration and verify data.

With reference to Fig. 1, the exemplary topology figure for building automation system method is shown.Building wide area network 55 comprises multiple system and the parts of wired or wireless communication.Building wide area network 55 generally comprises multiple building automation system 100 and can access via " building collaborative interface system " or " BSIS ".BSIS200 can change by generating the one or more mobile computing devices 300 shown by the figure that BSIS200 is readable, and BSIS200 can be the part of environmental Kuznets Curves access panels 250.BSIS200 can also comprise the access to the data storage device comprising building information database 210 and customer data base 220.Software for transmitting environment and from other data to BSIS200 can be stored in both mobile computing device 300 and/or building automation system 100.As herein by explanation, BSIS200 makes it possible to the one or more ambient As regulated based on human action when not having mobile computing device 300 to be connected with the network between BSIS200 in building automation system.

With in nextpage, first explain the general layout being arranged to the exemplary building automation system 100 used together with BSIS200.Afterwards, the general layout of interpreted environment access control panel 250, is followed by thereafter the general layout of mobile computing device 300.The overall operation of BSIS200 is discussed after the description of building automation system (BAS), environment access control panel 250 and mobile computing device 300.

building automation system

In the example embodiment of Fig. 1, building automation system 100 comprises building information database 210, customer data base 220, closed-circuit television system 130, safety system 140, fire alarming system 150 and environmental control system 160.Depict the system block diagram of the exemplary building automation system (BAS) 100 in building 99 in fig. 2.Building automation system 100 is depicted as distributed building system, and it provides controlling functions for any one (such as environmental Kuznets Curves, safety, life or condition of a fire safety, the Industry Control etc.) in multiple building operation.The example of BAS is the available Apogee building automation system of building technology branch of Industrial Co., Ltd of Siemens from Illinois Buffalo Ge Luofu.Apogee building automation system allows the setting of various controls and/or the change of system, generally as following providing.Although provide the concise and to the point description to exemplary BAS in the following paragraphs, should understand, building automation system 100 described herein is only used for exemplary form or the configuration of building automation system.

Special in Fig. 2, building automation system 100 comprises at least one supervisory control system or work station 102, client station 103a-103c, report server 104, the multiple field panel represented by field panel 106a and 106b and the multiple controllers represented by controller 108a-108e.But will understand, multiple BAS framework can be adopted.

Each in controller 108a-108e represents one in the Modular building thing control subsystem of multiple localization, such as space temperature control subsystem, Illumination Control Subsystem etc.Suitable controller for building controls subsystem comprises such as from Industrial Co., Ltd of the Siemens building technology branch available model TEC(terminal device controller of Illinois Buffalo Ge Luofu).In order to perform the subsystem controls that it is associated, each controller 108a-108e is connected to one or more field apparatus, such as transducer or actuator, it is shown as transducer 109a by way of example in fig. 2 and is connected to controller 108a and actuator 109b is connected to controller 108b.

Typically, the controller of such as controller 108a and so on affects the control of subsystem based on sensed condition and desired setpoint conditions.Controller controls the operation of one or more field apparatus to attempt to take sensed condition to desired setpoint conditions.For example, consider the temperature control subsystem controlled by controller 108a, wherein actuator 109b is connected to air conditioning valve and transducer 109a is room temperature sensor.If as unequal in the temperature set-point of the sensing temperature provided by transducer 109a and expectation, then controller 108a can open or close air conditioning valve to attempt temperature to be taken to closer to expectation set point further via actuator 109b.It is to be noted, in BAS100, transducer, actuator and set point information can be shared on controller 108a-108e, field panel 106a and 106b, work station 102 and BAS100 or between other element any being connected to BAS100.

In order to promote sharing of such information, be such as connected to controller 108a and 108b those and so on groups of subsystems be typically organized into floor (floor) level network or field level networks (" FLN "), and be generally docked to field panel 106a.FLN data network 110a is the low level data network that suitably can adopt any suitable proprietary or open protocol.Subsystem 108c, 108d are connected via another rudimentary FLN data network 110b together with field panel 106b similarly with 108e.Similarly, should understand, multiple FLN framework can be adopted.

Field panel 106a and 106b is also connected to work station 102 and report server 104 via building level network (" BLN ") 112.Field panel 106a and 106b coordinates communicating in subsystem 108a-108e and data and control signal between supervision computer 102 and report server 104 thus.In addition, one or more in field panel 106a, 106b can oneself field apparatus direct communication with such as Ventilating valve controller etc. and so on and controlling it.For this reason, as shown in Figure 2, field panel 106a may be operably coupled to one or more field apparatus, and it is such as shown as transducer 109c and actuator 109d.

Work station (server in other implementation) 102 provides overall control to building automation system 100 and supervision, and comprises user interface.Work station 102 is also operating as the BAS data server with the various element swap datas of BAS100.BAS data server can also with report server 104 swap data.BAS data server 102 allows to visit BAS system data by various application.Such application can perform on work station 102 or other supervision computer (not shown).

Continue with reference to Fig. 2, work station 102 operates into the amendment, change, change etc. of acceptance from user.This typically completes via the user interface of work station 102.User interface can comprise keyboard, touch-screen, mouse or other interface unit.Work station 102 especially can operate into impact except other things or change the operating data of other parts of field panel 106a, 106b and BAS100.Field panel 106a and 106b utilize provides control to its corresponding controllers from the data of work station 102 and/or instruction.

Work station 102 also operates into poll or inquires about field panel 106a and 106b for collection data.Work station 102 processes the data received from field panel 106a and 106b, comprises trend data.Therefore, in conjunction with poll, inquiry or otherwise collect information and/or data from field panel 106a and 106b, work station 102 stores it, records and/or processes for various uses.For this reason, field panel 106a and 106b operate into the amendment, change, change etc. of acceptance from user.

Preferably, work station 102 also safeguards the database be associated with each field panel 106a and 106b.Database maintenance is for the operation of field panel that is associated and configuration data.Report server 104 takes the circumstances into consideration store historical data, trend data, misdata, system configuration data, graph data and other BAS system information.In at least one embodiment, building information database 210 and customer data base 220 can be accessed by BSIS200 via BAS data server 102.In other embodiments, building information database 210 and customer data base 220 can be stored in other place, such as field panel 106b.

Management level network (MLN) 113 can be connected to other supervision computer and/or server, internet gateway or go to other network gateway of other external equipment, and is connected to additional network manager (it is connected to more multiple subsystem via additional low level data network then).Work station 102 can be operating as supervision computer, and it uses MLN113 transmit BAS data to other element on MLN113 and transmit BAS data from it.MLN113 suitably can comprise Ethernet or similar cable network, and can adopt other agreement of TCP/IP, BACnet and/or support high-speed data communication.

Fig. 2 also illustrate BAS100 can comprise as have building information database 210, customer data base 220 housing Fig. 2 shown in field panel 106b and there is the environment access panel 250 of BSIS200.Mobile computing device 300 is configured for via the environment access panel 250 that field panel 106b provides and BAS100 radio communication.Although aforementioned BSIS component is shown as in fig. 2 and is associated with one of field panel 106b, will recognize, in other embodiments, these and other BSIS component can differently be positioned in BAS100 or be connected to BAS100.Such as, the building information database 210 of BSIS and customer data base 220 can provide on work station 102.Alternatively, building information database 210 and customer data base 220 can be accommodating with those isolation of components shown in Fig. 2, such as in the independent computer equipment being coupled to building level network 112 or other BAS position.Independent computer equipment like this can also be used for storing BSIS function software.Similarly, the environment access panel 250 with BSIS200 can be placed in work station 102, or in the independent computer equipment of building level network 112 being coupled to BAS.

Referring now to Fig. 3, show the block diagram of the exemplary embodiment of the field panel 106b of Fig. 2.Should understand, the embodiment of field panel 106b is only the exemplary embodiment of the field panel be coupled in the BAS100 of BSIS200.Similarly, the exemplary embodiment of the field panel 106b of Fig. 3 is all modes of the field panel that the mode that can set forth herein operates or the general expression of configuration.

The field panel 106b of Fig. 3 comprises the housing, rack (cabinet) etc. 114 being configured for building automation system field panel in a typical manner.Field panel 106b comprises treatment circuit/logical one 22, memory 124, power model 126, user interface 128, I/O module 134, BAS network communication module 136 and WiFi server 130.

Treatment circuit/logical one 22 operates into, is configured to and/or is adapted to the field panel 106b that operation comprises feature as described herein, function, characteristic etc.For this reason, treatment circuit logical one 22 may be operably coupled to all elements in field panel 106a described below.Treatment circuit/logical one 22 be typically in be included in program command in instruction 142 region of memory 124 or programming software or firmware control under, be below further explained in detail.Except storing instruction 142, memory also stores the data 152 for BAS100 and/or BSIS200.

Field panel 106b also comprises the various parts operated into, be adapted to and/or be configured to field panel 106b(and field panel) the suitable electric power model 126 of supply.Power model 126 can at the enterprising line operates of standard 120 volts of AC electricity, but can alternatively at the enterprising line operate of other AC voltage or comprise the DC power supplied by one or more battery.

I/O (I/O) module 134 is additionally provided at the scene in panel 106b.I/O module 134 comprises the one or more input/output circuitries directly communicated with terminal control system equipment (such as actuator and transducer).Therefore, such as, I/O module 134 comprises the analog input circuit for receiving analog sensor signal from transducer 109a, and comprises the analog output circuit for providing simulation actuator signal to actuator 109b.I/O module 134 typically comprises several such input and output circuit.

Field panel 106b also comprises BAS network communication module 136.Network communication module 136 allows and other component communication on controller 108c and 108e and FLN110b, but also allows and other component communication on work station 102, other field panel (such as field panel 106a) and BLN112.For this reason, BAS network communication module 136 comprises the first port (it can be suitably RS-485 standard port circuit) being connected to FLN110b and the second port being connected to BLN112 (it can be RS-485 standard port circuit equally).

Field panel 106b can local IP access.In order to promote local IP access, field panel 106b comprises interactive user interface 128.By using user interface 128, user can control to collect data from the equipment of such as transducer 109a and actuator 109b and so on.The user interface 128 of field panel 106b comprises display data and receives the equipment of input data.The reception of input data can comprise code reader device, such as responds (QR) code reader fast.These equipment can be forever invest the equipment of field panel 106b or portable and moveable equipment.User interface 128 suitably can also comprise LCD type screen etc. and keypad (keypad).User interface 128 operates into, is configured to and/or is adapted to not only to be changed but also illustrates about the information (such as state information) of field panel 106b and/or about operation, function and/or to the amendment of field panel 106b or other data of change.

As mentioned above, memory 124 comprises the various programs that can be performed by treatment circuit/logical one 22.Especially, the memory 124 of Fig. 3 comprises BAS application 144 and BSIS building application 146.BAS application 144 comprises the routine application of the field panel 106b being configured to control BAS100, so that the various field apparatus 109a-n of control & monitor BAS100.Therefore, performing BAS application 144 by treatment circuit/logical one 22 causes the I/O module 134 via field panel 106b to be sent to the control signal of field apparatus 109a-n.The execution of BAS application 144 also causes processor 122 from various field apparatus 109a-n accepting state signal and other data-signal, and the data be associated is stored in memory 124.In one embodiment, BAS application 144 can provide by from Industrial Co., Ltd of Siemens commercially available Apogee Insight BAS control software design or another BAS control software design.

Except instruction 142, memory 124 can also comprise data 152.Data 152 comprise record 154, graphics view 156, room data storehouse 158, customer data base 162 and facility database 164.Record 154 comprises by the control of field panel 106b and field apparatus 109a-n and operates the current and historical data stored explicitly.Such as, record 154 can comprise current and historical temperature information in the particular room of building 99, as by the thermistor (thermistor) in room or other temperature sensor provide.Record 154 in memory can also comprise various set point for field apparatus 109 and control data, and it can be pre-installed in memory 124 or by user and be provided by user interface 128.Record 154 can also comprise to be applied the control of 146 and operates relevant out of Memory with 100BAS and BSIS building, comprise statistics, daily record, license and historical information.

Graphics view 156 provides will arrange to the various screens of user's display via user interface 128.The example for such screen of display on mobile computing device 300 is provided in following Fig. 8, Fig. 9 and Figure 11 of discussing in detail further.User interface 128 may be displayed on the thermostat with display or other user access point place with display, the visual display device of described display such as liquid crystal display, light emitting diode indicator or other known type.

Room data storehouse 158 can comprise the data relevant with the layout of building 99.This room data storehouse 158 comprises the unique identifier (such as room " 12345 ") for each room in building or region.Except unique identification data, room data storehouse 158 can also comprise the out of Memory about the particular room in building 99 or region.Such as, room data storehouse 158 can comprise about the field apparatus being positioned at room or region, the information being positioned at the specific device (such as, research device, manufacturing installation or HVAC device) in room or region.

Customer data base 162 can comprise the data relevant with the human user of building 99 of frequently coming in and going out.Therefore, customer data base 162 can comprise unique identifier (such as user " 12345 ") for each human user and the user profiles that is associated with this user.In other implementation, each room or region can have the profile making one or more user associated with it.The information that user profiles can comprise customer-furnished information or be provided by the third party about user.Such as, user profiles can comprise the preferable temperature for user or the illumination level that are supplied to customer data base 162 by user.User profiles also can comprise for security clearance (clearance) level of user, room access right or data access rights, and it is all supplied to database 162 by third party's (such as having Human Resource Department or the Ministry of State Security of the employer of building 99).

Facility database 164 can comprise the data relevant with each device in building 99.Device can comprise the field apparatus be associated with BAS100 or other device be positioned in building 99.Such as, facility database 164 can comprise the information relevant with the manufacture of the particular room being arranged in building or research device.Facility database 164 safeguards the unique identifier (such as device " 12345 ") being used for every part device and the data be associated with this device.Such as, particular illustration, operation manual, photo or class likelihood data can be associated with giving locking member device by database 164 in database 164.

Although field panel 106b to be interpreted as accommodating BSIS building application 146 and various BSIS database (such as room data storehouse 158, customer data base 162 and facility database 164) in the aforementioned embodiment, but will recognize, these parts can be retained in other position be associated with BAS100.Such as, these parts all can be retained in BAS100 central workstation 102 in or in the BSIS computing equipment of specifying separately in BAS100.

Turn to Fig. 4, depict to use and encoded and the exemplary process flow diagram 400 of the parameter modification building automation system do not read with relying on network by building automation system by mobile device.User is mutual with the mobile device of such as mobile device 300 and so on, and arranges the various environmental parameters 404 be associated with building automation system via Mobile solution.Then Mobile solution uses the various preference that comprises in a mobile device and user profile to become data decode can not rely on the machine readable code 404 of Internet Transmission.Coded data can also comprise the information be associated with building automation system, such as fan mark or curtain (blind) mark.Term " can not rely on Internet Transmission " and means and transmits data when memory devices physics not being inserted in system to be read.The example of ind transmission comprises the reader of the code reading such as bar code or QR code, RFID label tag, MOS code and so on, photoflash lamp and magnetic card reading.Then can be in machine readable (machine perceivable) code shown on the mobile apparatus 406 by various preference and other data genaration.Shown code can not rely on network by building automation system and reads 408 from mobile device or printed code with connecting.Building automation system via processor from the various parameter 410 of code decoding.Then various parameter is sent to the system 412 of such as environmental system forming building automation system and so in present exemplary.

environment access control panel

With reference now to Fig. 5, exemplary environments access control face equipment 250 is shown.System environments access control face equipment 250 can be mounted in one of many varying environment access control face equipments in the various positions in building 99.Environment access control panel equipment 250 can be configured to present information to human user, and in certain embodiments, can be configured to receive information from human user.Therefore, environment access control panel equipment 250 comprises display screen 255, all if show LED, LCD or the plasma screen of vision data to human user.

The major function of environment access control panel equipment 250 has the reader that can read encoded symbol or character (user preference with encoded QR form).In present exemplary, reader can be QR code reader 260.Environment access control panel equipment 250 can also have the one or more displays for providing information to user.The example of such information comprises position 262, temperature 264 and/or energy ezpenditure 266.In the example of fig. 4, QR code 265 pattern of indicative for environments setting is presented to reader 260.Reader from paper, wireless device or can support that other material of the reading of QR code 265 reads QR code 265.It being understood that in present exemplary for reader that the reader of QR code can be for bar code, text codes or other machine readable code in other implementation.It is to be noted, encoded environmental data read in the access that user must not have data network or building automation network when occur.

In order to the convenience of user, the environment access control panel equipment 250 with the BSIS200 that can read QR code 265 can be installed to and be in room or room groups or the building 99 of the position of its close proximity.In other implementation, middle position can be provided for environment access control panel equipment 250, such as be arranged on the wall in the main Room of building 99, the doorway of the test laboratory in building 99 or other threshold.It being understood that and do not require that environment access control panel equipment 250 is associated with any specific region of building 99.Region in building 99 is coded in QR code 265 with associating of QR code.

Environment access control panel equipment 250 can be coupled to BLN112 or FLN110b of BAS100.Therefore, environment access control appliance 250 can be configured to transmit and receive the information from BAS100.The information received from BAS100 may be displayed on display screen 255.This information can comprise the out of Memory of building information mark 262,264 and 266 and the user that can be beneficial to man, such as building information, Weather information, topical news, time of day (timeofday) or out of Memory.As noted above, the display screen 255 of the environment access control panel equipment 250 of Fig. 5 is the dynamic display that can change in time.

Except display screen 255, system registration/display device can also comprise the optional feature allowing the mankind to dock with BAS100.Such as, at least one embodiment, display screen 255 is the touch-screens allowing user to input data via display screen 255.Environment access control panel equipment 250 can also comprise optional feature, such as loud speaker, microphone, video camera, various data communication port and other interface unit, is included in common those on television set or computer monitor.These additional interface parts can be used to provide helpful feature to human user, are such as provided for the audio instructions of BSIS200 to human user.These additional interface parts can also be provided CCTV camera and intercom by each position that fail safe is used in building.In addition, when operational issue comes across environment access control panel equipment 250, interface unit can be used for safeguards use.

Although below environment access control panel equipment 250 to be interpreted as display dynamic data and have multiple electronic characteristic, in other embodiments, environment access control panel equipment 250 can be configured to only show static data and without electronic unit.In such an arrangement, environment access control panel equipment 250 can be posted in outside room or the printing mark on doorway, and it identifies this room and shows building information.When there is multiple environment access control panel equipment in building 99, the combination of Static and dynamic equipment can be used, comprise the printing mark (there is reader) described in this section and as the combination with the equipment of screen and various electronic unit described in conjunction with Figure 5 above.

mobile computing device

Except system environments access control face equipment 250, BSIS can also comprise mobile computing device 300, Fig. 1.Mobile computing device 300 can by can be carried by the mankind and any mobile device of generating code (the QR code 260 in present exemplary) provides.Referring now to Fig. 6, show the internal frame diagram of exemplary mobile computing device 300.Mobile computing device 300 comprises and can be configured to read the scanner/camara module 350 of building information QR code 260 and comprise the user interface 340 of display screen.Exemplary mobile computing device comprises personal digital assistant, smart phone and handheld personal computer (such as Droid, iOSiPhone, iPod, iPodTouch, iPad etc.).

The mobile computing device 300 of Fig. 6 comprises the housing or shell etc. 308 being configured for mobile computing device with typical way.Mobile computing device 300 comprises treatment circuit/logic 310, memory 320, power model 330, user interface 340 and video camera/scanner module 350, and it is all placed in housing 308.Those of ordinary skill in the art will understand, the embodiment of mobile computing device 300 is only the exemplary embodiment being arranged to the mobile computing device communicated with BAS100 by wireless network, and can comprise not shown to avoid other parts making each aspect of the present invention hard to understand.

Treatment circuit/logic 310 operates into, is configured to and/or is adapted to the mobile computing device 300 that operation comprises feature as described herein, function, characteristic etc.For this reason, treatment circuit/logic 310 is coupled to whole elements of mobile computing device 300 described below.Treatment circuit/logic 310 be typically in be included in program command in memory 320 or programming software or firmware 322 control under, be below further explained in detail.Except storing instruction 322, memory also stores the data 324 for BAS100 and/or BSIS200.

Mobile computing device 300 also comprises power model 330, and it operates into, be adapted to and/or be configured to the various parts to mobile computing device 300(and mobile computing device) supply suitable electricity.Power model 300 is generally the DC power supplied by one or more battery.

Mobile computing device 300 also comprises user interface 340.User interface 340 allows mobile computing device 300 to present information to user, and allows user data to be inserted in mobile computing device 300.Therefore, user interface 340 can be configured to drive any one in touch-screen, keypad, button, loud speaker, microphone or other standard user interface devices various.

Video camera/scanner module 350 can also be provided in mobile computing device 300.Video camera/scanner module 350 can be configured to read by software or application and previously generate and the QR code 265 be associated with BAS100.Therefore, such as, video camera/scanner module 350 can comprise the QRCODE and the video camera of the electronic data file producing image (such as jpeg file) that are configured to focus on such as QR code 265 and so on.

The electronic data file generated by video camera/scanner module 350 can be stored in memory 320.Treatment circuit/logic 310 is configured to be processed into by the electronic data file that video camera/scanner module 350 generates the flag data used by one or more application.Such as, treatment circuit/logic 310 can be configured to generate the QR Code Number that is associated with the data that building information marks and user inputs of being caught by mobile computing device 300 or other unique identifier.

Memory 320 comprises can it can comprise processor by treatment circuit/logic 310() the various programs that perform.Especially, the memory 320 in the mobile communication equipment 300 of Fig. 6 comprises BSIS Mobile solution 322.It is alternately senior that BSIS Mobile solution 322 is configured to promote to have between the human user of mobile communication equipment and building automation system 100.For this reason, BSIS Mobile solution 322 is configured to generate the machine readable code (the QR code in present exemplary) with at least ambient As and uses for BSIS200.Present the example that may be used for the false code generating QR code:

/*

(1) [TemperatureMonitor(temperature monitor)]

(2) [TemperatureSetPoint(temperature set-point)]

(3) [HumidityMonitor(humidity monitors)]

(4) [HumiditySetpoint(humidity set point)]

(5) [AirQualityMonitor(air quality monitor)]

(6) [AirQualitySetpoint(air mass setpoint)]

(7) [FanMonitor(fan monitor)]

(8) [FanSetpoint(fan set point)]

(9) [LightMonitor(lamp monitor)]

(10) [LightSetpoint(lamp set point)]

(11) [BlindMonitor(curtain monitor)]

(12) [BlindSetPoint(curtain set point)]

(13) [OccModePoint(Occ mode point)]

(14) [GreenLeafPoint(greenery point)]

(15) [the urgent point of EmergencyPoint()]

(1) [Preset#1Temperature(presets #1 temperature)]

(2) [Preset#1Humidity(presets #1 humidity)]

(3) [Preset#1AirQuality(presets #1 air quality)]

(4) [Preset#1Fan(presets #1 fan)]

(5) [Preset#1Light(presets #1 lamp)]

(6) [Preset#1Blind(presets #1 curtain)]

(7) [Preset#1OccMode(presets #1Occ pattern)]

*/

// temperature

// temperature STPT

// humidity

// humidity STPT

// air quality

// air quality STPT

// fan

// fan STPT

// lamp

// lamp STPT

// curtain

// curtain STPT

//Occ pattern

// greenery

promptly

preset 1 temperature

preset 1 humidity

preset 1 air quality

preset 1 fan

preset 1 lamp

preset 1 curtain

preset 1Occ pattern

preset 1 and terminate (closing) mark

preset 2 temperature

preset 2 humidity

preset 2 air qualities

preset 2 fans

preset 2 lamps

preset 2 curtain

preset 2Occ pattern

preset 2 end marks

preset 3 temperature

preset 3 humidity

preset 3 air qualities

preset 3 fans

preset 3 lamps

preset 3 curtain

preset 3Occ pattern

preset 3 end marks

preset 4 temperature

preset 4 humidity

preset 4 air qualities

preset 4 fans

preset 4 lamps

preset 4 curtain

preset 4Occ pattern

preset 4 end marks

preset 5 temperature

preset 5 humidity

preset 5 air qualities

preset 5 fans

preset 5 lamps

preset 5 curtain

preset 5Occ pattern

BSIS Mobile solution 322 can also be configured to encode to additional data, such as generating to subscriber identity data unique for the computing equipment of the QR code of BAS100.The operation of BSIS Mobile solution 322 will be further explained in detail below.

Except instruction 322, the memory 320 of mobile computing device 300 also comprises data.These data can comprise the record 324 of the current and historical data relevant with the operation of mobile computing device 300.Such as, the user totem information that 324 can comprise mark mobile computing device 300 is recorded.Record 324 can also comprise the current and history QR code generated by mobile computing device 300.

bSIS Mobile solution operates

With reference now to Fig. 7, it is for performing application by mobile device 300 and the figure of the graphical user interface 702 of BSIS Mobile solution 700 that generates.Graphical user interface 702 can present multiple environment option 704,706,708,710,712 and QR code generator 714 for user.In other implementation, additional or less option can be presented to user.In other implementation again, except environment option, additional information can also be provided for being included in code (the QR code in present exemplary), such as clock in (clock-in), clock out (clock-out), safety system activation, safety system deexcitation, position verification.

If select the environment option 704 for changing temperature in graphical user interface 702, present temperature graph user interface 800, Fig. 8 to user.802 can present desired temperature in digital form.Figure input 804 can also be presented.Figure input 804 is the draw runners in the shape of thermometer.When mobile draw runner, the desired temperature of 802 also can change in present exemplary in digital form.Additional maintenance (conservation) icon 806 can also be there is.When temperature is in environmental friendliness level (60-68 degree), keep icon 806 can be revealed as green in color.When temperature is raised, the green color of icon 806 is kept to change into redness gradually.The bottom of graphical user interface 800 can provide multiple buttons 808 of the selection in showing corresponding to graphical user interface 702.Graphical user interface 800 can also have the temperature button 812 visually indicated that it is in multiple buttons 808 of current selection.In this example, temperature button 812 is highlighted.

If select fan control 710 or 810, for user presents fan graphical user interface 900, Fig. 9.The desired speed of fan is rendered as digital value 902.Also for user presents can rotate in one direction to increase fan speed and rotate up to reduce the virtual knob of fan speed the opposing party with the shape of fan 904.Corresponding fan speed can change and be shown as digital value 902.Fan graphical user interface 900 can also have with the maintenance icon 906 worked with 806 similar modes, but about fan speed.Graphical user interface 900 can also have the fan button 912 visually indicated that it is in multiple buttons 908 of current selection.In this example, fan button 912 is highlighted.

If the lamp of selection such as 708 or 910 and so on controls, graphical user interface 1000, Figure 10 is set for user presents lamp.The lamp expected arranges and is rendered as digital value 1002.Also move up or down finger thereon to change the image of the bulb 1004 of lamp setting for user presents user.Corresponding lamp arranges and can to change and updated value is shown as digital value 1002.Lamp arranges graphical user interface 1000 can also be had with the maintenance icon 1006 worked with 806 and 906 similar modes, but about illumination.Graphical user interface 1000 can also have the fan button 1012 visually indicated that it is in multiple buttons 1008 of current selection.In this example, to arrange button 1012 highlighted for lamp.

The humidity option button 706 of Fig. 7 and curtain button 712 can operate in the mode similar with the graphical user interface for temperature 800, fan speed 900 and lamp 1000.

bSIS Mobile solution process streams

With reference now to Figure 11 a and 11b, the exemplary process diagram 1100 of the BSIS Mobile solution 700 performed by mobile device 300 is shown.Process starts with step 1102, and wherein user activates and previously to have downloaded or alternate manner is arranged on BSIS Mobile solution 702 on mobile device 300.In step 1104, the top layer of the graphical user interface 702 of BSIS Mobile solution 700 is shown.Then user can control submenu (704-714) from the top layer Environment of graphical user interface 702 in a step 1106.If do not made a choice, top layer graphical user interface 702 continues display, until it exits in step 1110.Exit if be applied in 1110, then it is closed and no longer shows in step 1112.

If have selected environmental Kuznets Curves submenu in a step 1106, then in step 1114, there is the inspection of the selection for temperature graph user interface 704.If have selected temperature graph user interface in step 1114, in step 1116, generate and on mobile device 300 displays temperature graphical user interface submenu 800.Then user can revise temperature in step 1118.Then user can use multiple button 808 to select the exit button of different submenus or mobile device to close application.

If have selected humidity graphical user interface in a step 1106, then in step 1120, humidity graphical user interface submenu is generated and is presented in step 1122 on mobile device 300.Then user can revise humidity in step 1124.Then user can use multiple button 808 to select the exit button of different submenus or mobile device to close application.

If have selected lamp graphical user interface in a step 1106, then in step 1128, lamp graphical user interface submenu 1000 is generated and is presented in step 1130 on mobile device 300.Then user can revise lamp brightness in step 1132.Then user can use multiple button 1008 to select the exit button of different submenus or mobile device to close application.

If have selected fan graphical user interface in a step 1106, be then generated in step 1134 fan graphical user interface submenu 900 and be presented in step 1136 on mobile device 300.Then user can revise fan speed in step 1138.Then user can use multiple button 1008 to select the exit button of different submenus or mobile device to close application.

If have selected curtain graphical user interface in a step 1106, then curtain graphical user interface submenu is generated and is presented in step 1142 on mobile device 300 in step 1140.Then user can change curtain and arrange in step 1144.Then user can use multiple button to select the exit button of different submenus or mobile device to close application.

If have selected generating code graphical user interface in a step 1106, then in step 1148 for user present wherein user can confirm should generating code (the QR code in present exemplary) submenu graphic interface and generate QR code in step 1150.Then the QR code generated can be shown in step 1152.In step 1152, show shown QR code, it can be read by the code reader communicated with BAS100.In step 1154, can also provide for user the option preserving QR code.In Current implementations, QR code can be saved as figure or picture in step 1156.In other implementation, if adopt text codes, text can be preserved.When user terminates to generate QR code, he or she can exit application or turn back to top layer BISI Mobile solution graphical user interface in step 1158.

exemplary BSIS scene

With reference now to Figure 12, what illustrate when user utilizes mobile computing device 300 to scan QR code between BSIS Mobile solution 322 and BAS100 is alternately exemplary.In this illustration, user starts to use BSIS Mobile solution graphical user interface 340 to set the environment of expectation by using mobile computing device 300 as described herein.Then user is created on the code (the QR code in present exemplary) of display on mobile computing device 300.Mobile computing device 300 is received into the BSIS200 of environment access control panel 250.BSIS200 can be arranged in meeting room " A ".Then QR code is read by the BSIS200 in meeting room " A ", and the environmental Kuznets Curves being used for meeting room " A " is set to the setting be coded in QR code by BAS.It is to be noted between mobile computing device with BAS, to there is not network be connected.Only read QR code via BAS and transmit data.

BSIS Mobile solution can provide and check to examine the acceptable scope used for environmental Kuznets Curves, such as prevents temperature to be set too low or too high.In other implementation, inspection can occur in BAS.

In present exemplary, where the position of identification (mrfid) reader, be positioned at because BAS knows it.In other implementation, user can use BSIS graphical user interface and can set the position that will regulate.The position that will regulate in some implementations can be transfused to as text, or in other implementation, it can be set via the drop-down menu of prestrain.

Multiple code can be preserved separately in memory and be retrieved as required (recall).Such as, the code for office can be stored as " office ", can be stored as " ConfA " etc. for the code of meeting room " A ".Code can also be printed and be attached to the back side of badge, makes user can use QR code when not having mobile computing device.

Turn to Figure 13, the diagram of top layer BSIS Mobile solution 1300 graphical user interface 1302 appeared at before the configuration according to sample implementation on the mobile computing device 300 of Fig. 1 is shown.Graphical user interface 1302 starts and illustrates can controlled varying environment control 1304-1314.Each in environment control 1304-1314 has " (pending) co-pending " instruction, because bottom application is not yet configured or is filled with the data be associated with BAS.BSIS Mobile solution 1300 can be placed in configuration mode or operator scheme by graphical user interface.In present exemplary, user will rap graphical user interface 1302 and it is placed in configuration mode for " co-pending " due to all environment controls.

In fig. 14, the mobile computing device 300 depicted according to sample implementation performs the graphical representation of exemplary 1400 reading the BSIS Mobile solution 1300 of QR code 1402 shown by environment access panel 250.BSIS Mobile solution display on mobile device 300 informs that user BSIS Mobile solution 322 is in " the scanning QR code " message 1404 in configuration mode.Mobile device 300 reads via scanner/video camera 1406 or scanning encoding has configuration and the QR code 1402 of verify data.BSIS Mobile solution is decoded to QR code 1402 and is utilized configuration data and verify data to configure application.Then BSIS Mobile solution changes over operator scheme and presents the display of Fig. 7 to the user of mobile device 300.

Configuration data is the data be associated with the different piece of BAS.Data can comprise HVAC system control point, lamp, curtain, safety system and can in the subset of other BAS that is local or that be associated with user.Verify data can be the data that user, mobile device and BAS are associated.The password using and apply or must be input to before generating code in BSIS Mobile solution can be given in for user.Verify data in QR code can also comprise the unique identifier for BSIS Mobile solution, makes each code (QR code) generated by mobile computing device 300 have this code.In other implementation, common encryption key can be encoded in the verify data in QR code 1402, and it when using together with private cipher key, and encrypted data can be transmitted between mobile computing device 300 and BAS.In other implementation again, the configuration data for other application can transmit in code, the such as network address, wireless key, e-mail certificate etc.

Turning to Figure 15, depicting the flow chart 1500 by reading QR code configuration BSIS Mobile solution.BSIS Mobile solution 1300 starts in step 1502.In step 1504, BSIS Mobile solution 1300 checks configuration data and makes BSIS whether be in determination in configuration mode.If there is configuration data in step 1504, then in step 1514, BSIS Mobile solution enters operator scheme.

If BSIS Mobile solution 1300 is in configuration mode in step 1504, then BSIS Mobile solution has the graphic interface of display " scanning QR code " message 1404, and BSIS Mobile solution uses scanner/video camera 1406 to scan QR code in step 1506.The BSIS Mobile solution 1300 QR code that then decoding scans in step 1508.Data through decoding can have the verify data that compares with the certification be included in BSIS Mobile solution and in step 1510, can carry out certification to user.The example of such certification can comprise that to examine BSIS application licensed to use together with generating the BAS of QR code and can require that user password is to verify the user of BSIS Mobile solution.BSIS Mobile solution 1300 is configured with BAS configuration data.In step 1514, enter operator scheme and present the figure display in such as Fig. 7 to the user of BSIS Mobile solution.

In figure 16, illustrate and appear at according to sample implementation the BSIS graphical user interface 1602 had on the mobile computing device 1600 of sharing capability.BSIS Mobile solution shown in Figure 16 has been configured or has been filled with for temperature 1604, humidity 1606, illumination 1608, air movement 1610, curtain 1612, generating code 1614 and the control sharing 1616 buttons.In present exemplary, mobile device 1600 is expected access BAS100 and is required configuration and/or visit data.In order to initiate to share, " sharing " button 1616 can be selected.Once select, the BSIS Mobile solution on mobile device 1600 is placed in the operator scheme for scan code (in present exemplary QR code).

Turn to Figure 17, illustrate and appear at according to sample implementation another top layer BSIS graphical user interface 1702 had on the mobile computing device 1700 of sharing capability 1716.BSIS Mobile solution on mobile computing device 1700 has been configured and can by using generated code access BAS100 as described earlier.The environmental Kuznets Curves that can control comprises temperature 1704, humidity 1706, illumination 1708, air movement 1710, curtain 1712, generating code 1714 and shared data 1716.In order to the access shared or authorize BAS, user selects " the sharing " 1716 in graphical user interface 1702.The selection " sharing " 1716 can cause shared graphical user interface to appear on mobile computing device 1700.

In figure 18, the shared graphical user interface 1802 appeared on mobile computing device 1800 according to sample implementation is illustrated.Before sharing, the user sharing graphical user interface 1802 can configuration definition or retrain the one or more parameters how another mobile computing device (in present exemplary Figure 16 1600) can access BAS100.Unique identifier can be provided via user identifier button 1804.The selection of user identifier button 1804 can cause opening another window or presenting Text Entry.User can input and will to be coded in code and to identify the textual identifier of the user of another mobile device 1600.

" user leases the period " button 1806 can be selected in shared graphical user interface 1802." user leases the period " 1806 can cause opening another window or occurring calendar scroll box.Then user sets for there is time of expiring to the access of BAS100 and/or date.In other implementation, the time period for accessing BAS100 can be adopted.

" customer location " button 1808 can be selected in shared graphical user interface 1802." customer location " button 1808 can cause opening another window or pre-configured position is selectable (such as utilizing radio button).The subset of the region that user selects him to control or position or the access of authorizing all regions that he can control.In other implementation, the default value of all or equivalent access can be adopted.

" control allowed " button 1810 can be selected in shared graphical user interface 1802." control allowed " button 1810 can cause opening another window or pre-configured control is selectable (such as utilizing radio button selective temperature and humidity).In present exemplary, any control 1704-1714 being configured or being filled in mobile computing device 1700 can be tied or not share with mobile computing device 1600.Therefore, sharing users can be awarded amendment or change the license still not changing air movement, humidity or lamp of temperature.

Authentication button 1812 may be used for providing BAS100 may need to examine authenticate key or other security information of suitably access.Can present window or text box, wherein user inputs the text or digital value that are generated by BAS100.Then this value can be used to the shared mobile computing device 1600 that certification receives configuration sharing data and verify data.In other implementation, text or digital value can be nonces, wherein once device access BAS100, BAS100 generate the new value being used for sharing mobile computing device.

In order to make it possible to shared data, can press and generate button 1814.Such as the code of QR code and so on is generated and is presented on mobile computing device 1700.Code packages contains BAS data together with the data of encoding via button 1804-1812.Code can also comprise the information of the mobile computing device 1700 about user or generating code.In other implementation, code can via printing data or other non-network given data is shared method to share.

Once code is generated by mobile computing device 1700, mobile computing device 1600 just can read code (the QR code in present exemplary) and fills or otherwise configure its BSIS Mobile solution.Read mobile computing device and will select shared 1616 Figure 16, and be then presented shared graphical user interface (being similar to 1802 Figure 18).By selecting the reception button in shared graphical user interface, mobile computing device 1600 is placed in configuration or read mode (being similar to 1816 Figure 18).Except the certification that can be associated with the data from QR code, other sample implementation also may require in reception or otherwise authentication application before fetcher code.

Turn to Figure 19, illustrate the flow chart 1900 of the method for shared BAS control information according to sample implementation.Such as 1800 Figure 18, perform and to be previously configured and first mobile computing device of a BSIS Mobile solution of certification 1902 enters shared graphical user interface 1802 in step 1904.If be expected to be useful in sharing of the configuration data of BAS100 in step 1904, then in step 1906, use shared graphical user interface 1802 to select and/or be otherwise configured for the shared parameter (see 1804-1812 Figure 18) used by second mobile computing device (such as 1600) of execution the 2nd BSIS Mobile solution.Once via shared graphical user interface 1802 configuration parameter, BAS configuration data and verify data can be utilized in step 1908 to generate QR code.Then QR code can be presented on mobile computing device 1800 in step 1910.

Second mobile device 1600 Figure 16 performing the 2nd BSIS Mobile solution 1602 can read QR code and QR code of decoding from the first mobile device 1800 in step 1912.The reading of QR code is that non-network relies on and do not require wired or wireless connection the with the first mobile computing device (in present exemplary 1800 Figure 18).In step 1914, the 2nd BSIS Mobile solution can be configured or otherwise be filled with the data of QR code of decoding of hanging oneself.Before the control of authorizing BAS100 parameter, in step 1916, the BSIS Mobile solution be configured can carry out certification to the user of the second mobile computing device 1600.In other implementation, before certification can occur in configuration or otherwise fill the BSIS Mobile solution on mobile device 1600.In other implementation again, QR data can only be partially decoded to obtain verify data, until authentication success occurs.

In other implementation, graphical user interface can be provided to realize the renewal of configuration and verify data.Such renewal enters configuration mode by requiring and reads QR code.As the part of certification, the date of code building can be examined.By using such renewal, user can make its application authorization and configuration be upgraded rapidly and safely fast and simply.In other implementation again, for configure and the QR data of certification can print or send in the e-mail and use for user in paper.This makes new employee and guest before arrival, its code to be generated with available.

In Current implementations, mobile computing device performs BSIS Mobile solution.In other implementation, desktop computer may be used for performing application.Application can realize Figure 11 a and Figure 11 b process and by run such as Windows or Linux and so on operating system computer processor perform.In other implementation again, application can by the processor on computerized equipment realize in " browser " of such as InternetExplorer, Chrome, Safari and Firefox and so on Figure 11 a, 11b, 15 and 19 process.

Although the software that BSIS application is described to as being performed by the equipment with processor realizes (namely as the combination of hardware and software), but the embodiment presented can separately with hardware implementing, such as in application-specific integrated circuit (ASIC) (" ASIC ") equipment.

Herein by only example and unrestriced mode has presented the aforementioned detailed description of one or more embodiments of the building collaborative interface system for building automation system.To recognize to there is the advantage that can obtain when nonjoinder further feature described herein and function to some independent Characteristic and function described herein.And will recognize, the various changes of above disclosed embodiment, amendment, modification or improvement and further feature and function or its alternative, can close and desirably be combined into other different embodiments many, system or application.The replacement wherein do not predicted at present or be not susceptible to, amendment, modification or improvement can be made by those skilled in the art subsequently, and it is intended to contained by claim of enclosing equally.Therefore, the spirit and scope of any claim of enclosing should not be limited to the description of the embodiment comprised herein.

Claims (21)

1., for being configured for an equipment for the mobile device controlling building automation system, comprising:
Memory;
Display; And
Be coupled to the processor of memory, it performs the first building collaborative interface system (BSIS) Mobile solution for controlling building automation system, the code that the non-network that wherein a BSIS Mobile solution generates the data comprised for configuring the 2nd BSIS Mobile solution relies on.
2. the equipment of claim 1, the code display that wherein said non-network relies in the display.
3. the equipment of claim 1, the code that wherein said non-network relies on also comprises at least one parameter as being placed in the constraint on the 2nd BSIS Mobile solution by a BSIS Mobile solution.
4. the equipment of claim 3, at least one parameter wherein said is the time period that the data for comprising in described code use.
5. the equipment of claim 4, at least one parameter wherein said sets in shared graphical user interface.
6. the equipment of claim 1, wherein said data comprise both configuration data and verify data.
7. the equipment of claim 1, wherein said code is quick response (QR) code.
8., for being configured for a method for the mobile device controlling building automation system, comprising:
The processor that utilization can change the parameter in building automation system performs a BSIS Mobile solution;
A BSIS Mobile solution is utilized to configure at least one shared parameter; And
Generate the code of the non-network dependence comprising at least one the shared parameter be adapted to for configuring the 2nd BSIS Mobile solution.
9. the method for claim 8, be also included in be coupled to processor display on show non-network rely on code.
10. the method for claim 8, the code wherein generating non-network dependence also comprises the constraint that input is placed in the use of constraint the 2nd BSIS Mobile solution of generated code.
The equipment of 11. claims 10, the time period wherein used for data is described constraint.
The equipment of 12. claims 11, wherein inputs the shared graphical user interface also comprising display over the display and use when selecting constraint.
The equipment of 13. claims 8, wherein said packet is containing both configuration data and verify data.
The equipment of 14. claims 8, wherein generating code also comprises generation QR code.
15. 1 kinds of computer-readable mediums of multiple instructions had for realizing a kind of method for being configured for the mobile device controlling building automation system, comprise for following instruction:
The processor that utilization can change the parameter in building automation system performs a BSIS Mobile solution;
A GBSIS Mobile solution is utilized to configure at least one shared parameter; And
Generate the code of the non-network dependence comprising at least one the shared parameter be adapted to for configuring the 2nd BSIS Mobile solution.
The computer-readable medium of multiple instructions had for realizing a kind of method for being configured for the mobile device controlling building automation system of 16. claims 15, be also included in be coupled to processor display on show the code that non-network relies on.
The computer-readable medium with the multiple instructions for realizing a kind of method for being configured for the mobile device controlling building automation system of 17. claims 15, the code wherein generating non-network dependence also comprises the constraint that input is placed in the use of constraint the 2nd BSIS Mobile solution of generated code.
The computer-readable medium with the multiple instructions for realizing a kind of method for being configured for the mobile device controlling building automation system of 18. claims 17, the time period wherein used for data is described constraint.
The computer-readable medium with the multiple instructions for realizing a kind of method for being configured for the mobile device controlling building automation system of 19. claims 18, wherein inputs the shared graphical user interface also comprising display over the display and use when selecting constraint.
The computer-readable medium with the multiple instructions for realizing a kind of method for being configured for the mobile device controlling building automation system of 20. claims 15, wherein said packet is containing both configuration data and verify data.
The computer-readable medium with the multiple instructions for realizing a kind of method for being configured for the mobile device controlling building automation system of 21. claims 15, wherein generating code also comprises generation QR code.
CN201380056350.3A 2011-08-25 2013-08-29 Shared configuration data in a building automation system controller CN105144635A (en)

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