CN107733749B

CN107733749B - Terminal equipment binding system and method

Info

Publication number: CN107733749B
Application number: CN201710834918.XA
Authority: CN
Inventors: 文威
Original assignee: Opple Lighting Co Ltd
Current assignee: Opple Lighting Co Ltd
Priority date: 2017-09-15
Filing date: 2017-09-15
Publication date: 2020-08-28
Anticipated expiration: 2037-09-15
Also published as: CN107733749A

Abstract

The invention provides a system and a method for binding terminal equipment, wherein the system comprises a plurality of terminal equipment accessed to a network and a configuration device, and can flexibly realize the quick binding of the terminal equipment on a first display interface and a second display interface provided by the configuration device. And the configuration device in the terminal equipment binding system can determine the corresponding target position of the unbound terminal equipment on the position schematic diagram by using the N terminal equipment at the position on the bound position schematic diagram, and bind the unbound terminal equipment with the target position, thereby realizing the automatic binding of the terminal equipment in the configuration device, greatly reducing the workload of configuration personnel and reducing the error probability.

Description

Terminal equipment binding system and method

Technical Field

The invention relates to the technical field of intelligent control, in particular to a system and a method for binding terminal equipment.

Background

The lamp system is newly installed or renovated in a large place, the lamp system based on the wireless ad hoc network technology is often adopted, the wireless system is different from the original wired system, and the wall wiring is not needed, so that the construction is very convenient, and the cost of copper wires can be saved; the ad hoc network technology enables all nodes in the network to be connected with each other, communication at a longer distance can be realized through the jumping of the network nodes under the condition of not increasing the transmitting power, and the ad hoc network technology is very suitable for application requirements of large-scale office places.

The wireless lamp system needs to be distributed and bound, namely, lamps and configuration devices in the wireless lamp system need to be accessed into a network, and a list of the lamps and the configuration devices is managed on the configuration devices; meanwhile, a position schematic diagram (such as a building plan, a field layout plan or an installation position diagram) provided with the lamps is provided on the configuration device, the physical positions where the lamps are installed are bound with the corresponding positions on the position schematic diagram, and after the binding, the configuration device can perform the setting such as grouping, logic function definition and the like on the lamps, so that the purpose of remote control is achieved.

In the related art, when the lamps are bound, one lamp is selected first, the physical position of the installation of the lamp is confirmed through manual observation through a switch, and then the physical position of the lamp is bound with the corresponding position on the position schematic diagram on the configuration device.

The above binding process is suitable for a small number of lamps, but if the number of lamps is large, for example, lamps in an open office area of a large office building often exceeds hundreds, the physical positions of the lamps are repeatedly confirmed and are respectively bound with the corresponding positions on the position schematic diagram, which undoubtedly requires much time for configuration personnel; meanwhile, if the place needing to be configured is large, configuration personnel also need to walk repeatedly to confirm the physical position of the lamp, much physical power is consumed, and the error probability is increased. Therefore, there is a need to solve this technical problem.

Disclosure of Invention

In view of the above, the present invention has been made to provide a terminal device binding system and method that overcomes or at least partially solves the above problems.

According to an aspect of the embodiments of the present invention, a terminal device binding system is provided, which includes a plurality of terminal devices accessing a network and a configuration apparatus;

the configuration device provides a first display interface and a second display interface, and is used for acquiring information of the plurality of terminal devices accessed to a network and presenting a list of the plurality of terminal devices on the first display interface according to the information of the plurality of terminal devices; acquiring a position schematic diagram of the terminal equipment, and displaying the position schematic diagram on the second display interface;

the configuration device is further configured to receive a selection operation of a configuration worker for the list of the plurality of terminal devices on the first display interface and a positioning operation for the location diagram on the second display interface, and bind an identifier of a terminal device corresponding to the selection operation with a location on the location diagram corresponding to the positioning operation;

the configuration device is further configured to determine, by using the N terminal devices to which the positions on the position diagram have been bound, a target position on the position diagram corresponding to the unbound terminal device, and bind the unbound terminal device with the target position.

Optionally, the N terminal devices send out signals as beacons, and the unbound terminal devices receive the signals sent out by the N terminal devices and feed back corresponding received signal strengths to the configuration apparatus, where N is a positive integer greater than or equal to 2;

the configuration device is further configured to calculate physical distances between the unbound terminal devices and the N terminal devices, respectively, according to the received signal strength fed back by the unbound terminal devices, and convert plane distances between the unbound terminal devices and the N terminal devices, respectively, on the second display interface; and determining the corresponding position of the unbound terminal equipment on the position schematic diagram according to the converted plane distance and the positions of the position schematic diagrams of the N terminal equipments on the second display interface.

Optionally, when N is 2, if the position corresponding to the unbound terminal device on the position diagram determined by the configuration apparatus includes two positions to be selected;

the configuration device is further configured to select one of the two candidate positions as the target position.

Optionally, the configuration device is further configured to mark the two candidate positions on the position schematic diagram; and when a selection instruction of a configurator is received, selecting one of the two positions to be selected as the target position according to the selection instruction.

Optionally, for each terminal device of the N terminal devices, if the terminal device sends out a plurality of signals when serving as a beacon, the number of signals sent out by the unbound terminal device that receive the terminal device is multiple, and the corresponding received signal strength is also multiple; the physical distance between the unbound terminal device and the terminal device calculated by the configuration device also includes a plurality of physical distances, and the plane distance between the unbound terminal device and the terminal device also includes a plurality of plane distances; the position corresponding to the unbound terminal device on the position diagram determined by the configuration device is a position area, and the position area is composed of a plurality of position points;

the configuration device is further configured to select a location point from the location area as the target location.

Optionally, the configuration device is further configured to provide the location area on the location schematic; and when a selection instruction of a configurator is received, selecting a position point from the position area as the target position according to the selection instruction.

Optionally, the configuration apparatus is further configured to select a specified number of terminal devices from M terminal devices to which the positions on the position diagram have been bound, determine, by using the specified number of terminal devices, current positions of the remaining unbound terminal devices on the position diagram, and bind the remaining unbound terminal devices with the current positions, where a value of M is greater than a value of N.

Optionally, the configuration apparatus is further configured to mark the unbound terminal device as a bound terminal device at the target location after binding the unbound terminal device with the target location.

Optionally, the network includes a wireless network, and a communication protocol of the wireless network includes any one of WIFI, bluetooth, and Zigbee.

Optionally, the configuration device is further configured to: and obtaining the information of the plurality of terminal devices from a gateway or a router of the network.

Optionally, the plurality of terminal devices comprise light fixtures; the configuration device is a handheld terminal and comprises any one of a smart phone, a tablet computer and a notebook computer.

According to another aspect of the embodiments of the present invention, there is also provided a terminal device binding method, applied to a configuration apparatus, where the configuration apparatus provides a first display interface and a second display interface, and the terminal device binding method includes:

acquiring information of a plurality of terminal devices accessed to a network, and presenting a list of the plurality of terminal devices on the first display interface according to the information of the plurality of terminal devices; acquiring a position schematic diagram of the terminal equipment, and displaying the position schematic diagram on the second display interface;

receiving selection operation of a configurator for the list of the plurality of terminal devices on the first display interface and positioning operation for the position schematic diagram on the second display interface, and binding the identifier of the terminal device corresponding to the selection operation with the position on the position schematic diagram corresponding to the positioning operation;

and determining a target position corresponding to the unbound terminal equipment on the position schematic diagram by using the N terminal equipments bound with the positions on the position schematic diagram, and binding the unbound terminal equipment with the target position.

the determining, by using the N terminal devices to which the positions on the position diagram have been bound, a target position corresponding to the unbound terminal device on the position diagram includes:

calculating the physical distances between the unbound terminal equipment and the N pieces of terminal equipment respectively according to the received signal strength fed back by the unbound terminal equipment, and converting the plane distances between the unbound terminal equipment and the N pieces of terminal equipment respectively on the second display interface; and

and determining the corresponding target positions of the unbound terminal devices on the position schematic diagram according to the converted plane distances and the positions of the position schematic diagram of the N terminal devices on the second display interface.

Optionally, when N is 2, if the determined position of the unbound terminal device on the position diagram includes two positions to be selected; the method further comprises the following steps:

and selecting one of the two candidate positions as the target position.

Optionally, selecting one of the two candidate positions as the target position includes:

marking the two candidate positions on the position schematic diagram;

and when a selection instruction of a configurator is received, selecting one of the two positions to be selected as the target position according to the selection instruction.

Optionally, for each terminal device of the N terminal devices, if the terminal device sends out a plurality of signals when serving as a beacon, the number of signals sent out by the unbound terminal device that receive the terminal device is multiple, and the corresponding received signal strength is also multiple; the physical distance between the unbound terminal equipment and the terminal equipment calculated by the configuration device also comprises a plurality of physical distances, and the plane distance between the unbound terminal equipment and the terminal equipment also comprises a plurality of plane distances; the position corresponding to the unbound terminal device on the position diagram determined by the configuration device is a position area, and the position area is composed of a plurality of position points; the method further comprises the following steps:

and selecting a position point from the position area as the target position.

Optionally, selecting a location point from the location area as the target location includes:

providing the location area on the location map;

and when a selection instruction of a configurator is received, selecting a position point from the position area as the target position according to the selection instruction.

Optionally, after binding the unbound terminal device with the target location, the method further includes:

selecting a specified number of terminal devices from M terminal devices bound with the position on the position schematic diagram, determining the corresponding current positions of the remaining unbound terminal devices on the position schematic diagram by using the specified number of terminal devices, and binding the remaining unbound terminal devices with the current positions, wherein the value of M is greater than the value of N.

Optionally, after the unbound terminal device is bound to the target location, the method further includes:

and marking the unbound terminal equipment as the bound terminal equipment on the target position.

Optionally, the acquiring information of a plurality of terminal devices accessing a network includes:

and obtaining the information of the plurality of terminal devices from a gateway or a router of the network.

The terminal equipment binding system provided by the embodiment of the invention comprises a plurality of terminal equipment accessed to a network and a configuration device, and can flexibly realize the quick binding of the terminal equipment on a first display interface and a second display interface provided by the configuration device. And the configuration device in the terminal equipment binding system can determine the corresponding target position of the unbound terminal equipment on the position schematic diagram by using the N terminal equipment at the position on the bound position schematic diagram, and bind the unbound terminal equipment with the target position, thereby realizing the automatic binding of the terminal equipment in the configuration device, greatly reducing the workload of configuration personnel and reducing the error probability.

The foregoing description is only an overview of the technical solutions of the present invention, and the embodiments of the present invention are described below in order to make the technical means of the present invention more clearly understood and to make the above and other objects, features, and advantages of the present invention more clearly understandable.

The above and other objects, advantages and features of the present invention will become more apparent to those skilled in the art from the following detailed description of specific embodiments thereof, taken in conjunction with the accompanying drawings.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

fig. 1 is a schematic structural diagram of a terminal device binding system according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a terminal device binding system according to another embodiment of the present invention;

fig. 3 is a schematic diagram illustrating a presentation interface of a configuration apparatus in a terminal device binding system according to an embodiment of the present invention;

fig. 4 shows a flow chart of a terminal device binding method according to an embodiment of the invention; and

fig. 5 shows a flowchart of a terminal device binding method according to another embodiment of the present invention.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

In order to solve the above technical problem, an embodiment of the present invention provides a terminal device binding system, as shown in fig. 1, the terminal device binding system 100 may include a plurality of terminal devices 110 accessing a network and a configuration apparatus 120. Here, the plurality of terminal devices 110 may be the same type of device, or may be different types of devices, for example, a lamp, a home appliance, a camera, and the like, which is not limited in the present invention. The configuration device 120 may be a handheld terminal, and may include a smart phone, a tablet computer, a notebook computer, or the like. In addition, the network may be a wireless network, and the communication protocol of the wireless network may be WIFI, bluetooth, or Zigbee. The plurality of terminal devices 110 and the configuration device 120 have wireless communication modules of corresponding communication protocols, and can access a wireless network.

With continued reference to fig. 1, the configuration apparatus 120 in the terminal device binding system 100 provides a first presentation interface 11 and a second presentation interface 22, and the first presentation interface 11 and the second presentation interface 22 are located on the left and right sides of the display area on the display screen of the configuration apparatus 120. In an alternative embodiment, the first presentation interface 11 and the second presentation interface 22 may also be located on the display screen of the configuration apparatus 120 on the upper and lower sides of the display area (not shown in the drawings). In addition, in order to increase the interface area to present more content, the first presentation interface 11 and the second presentation interface 22 may also be presented on different display screens, and a switch key may be provided on the display area of the display screen of the configuration device 120, and the switch key is triggered to switch between the first presentation interface 11 and the second presentation interface 22.

In this embodiment, the configuration apparatus 120 is configured to obtain information of a plurality of terminal devices 110 accessing a network, and present a list (not shown in fig. 1) of the plurality of terminal devices 110 on the first presentation interface 11 according to the information of the plurality of terminal devices 110; and acquiring a location diagram with a plurality of terminal devices 110 installed, and presenting the location diagram (not shown in fig. 1) on the second presentation interface 22. The position diagram can be a building plan, a field layout plan or an installation position diagram, etc.

The configuration device 120 is further configured to receive a selection operation of a configuration staff for a list of the plurality of terminal devices 110 on the first presentation interface 11 and a positioning operation for the location diagram on the second presentation interface 22, and bind an identifier of a terminal device corresponding to the selection operation and a location on the location diagram corresponding to the positioning operation.

Further, the configuration apparatus 120 is further configured to determine, by using the N terminal devices at the positions on the bound position diagram, a corresponding position of the unbound terminal device on the position diagram, and bind the unbound terminal device with the determined position.

The terminal device binding system 100 according to the embodiment of the present invention includes a plurality of terminal devices 110 accessing to a network and a configuration apparatus 120, and can flexibly implement fast binding of the terminal devices 110 on a first presentation interface 11 and a second presentation interface 22 provided by the configuration apparatus 120. Moreover, the configuration device 120 in the terminal device binding system 100 can determine the target position of the unbound terminal device on the position diagram by using the N terminal devices at the positions on the bound position diagram, and bind the unbound terminal device with the target position, thereby implementing automatic binding of the terminal device 110 in the configuration device 120, thereby greatly reducing the workload of configuration personnel and reducing the probability of errors.

In an optional embodiment of the present invention, the configuration apparatus 120 determines, by using N terminal devices at positions on the bound position diagram, a corresponding position of an unbound terminal device on the position diagram, and in the optional embodiment of the present invention, the N terminal devices serve as beacons to send out signals, and the unbound terminal device receives the signals sent by the N terminal devices and feeds back corresponding received signal strength to the configuration apparatus 120. Here, if there is one signal transmitted from each of the N terminal apparatuses, the number of received signal strengths is N in total. In practical application, if there is one or more signals sent by each of the N terminal devices, then for the terminal device sending one signal, the unbound terminal device receives one signal of the terminal device, and feeds back the received signal strength corresponding to the one signal to the configuration apparatus 120; for a terminal device that sends multiple signals, the unbound terminal device receives the multiple signals from the terminal device, and feeds back the received signal strengths corresponding to the multiple signals to the configuration apparatus 120.

After receiving the received signal strength fed back by the unbound terminal devices, the configuration device 120 calculates physical distances between the unbound terminal devices and the N terminal devices, respectively, according to the received signal strength, and converts plane distances between the unbound terminal devices and the N terminal devices, respectively, on the second display interface 22; and then, according to the converted plane distance and the positions of the position schematic diagrams of the N terminal devices on the second display interface 22, determining the corresponding target positions of the unbound terminal devices on the position schematic diagrams.

N provided in the foregoing embodiments is a positive integer greater than or equal to 2, and when N is 2, if the position corresponding to the unbound terminal device on the position diagram determined by the configuration apparatus 120 includes two positions to be selected; the configuration means 120 may select one of the two candidate positions as the target position. In an alternative embodiment, the configuration device 120 may mark two candidate positions on the position diagram; and when a selection instruction of a configurator is received, selecting one of the two positions to be selected as a target position according to the selection instruction. In addition, the configuration device 120 may also select one of the two candidate positions as a target position based on a preset screening policy; one of the two candidate positions can be randomly selected as a target position.

In an alternative embodiment of the present invention, as described above, there are one or more of the signals sent by each of the N terminal devices. For each terminal device in the N terminal devices, if the terminal device sends out a plurality of signals when serving as a beacon, the unbound terminal devices receive a plurality of signals sent out by the terminal device, and the corresponding received signal strengths also include a plurality; the physical distance between the unbound terminal device and the terminal device calculated by the configuration apparatus 120 also includes a plurality of physical distances, and the planar distance between the unbound terminal device and the terminal device also includes a plurality of planar distances; the corresponding position of the unbound terminal device determined by the configuration device 120 on the position diagram is a position area, and the position area is composed of a plurality of position points; the configuration means 120 may select a location point from the location area as the target location.

In an alternative embodiment, the configuration device 120 may provide a location area on the location map; and when a selection instruction of a configurator is received, selecting a position point from the position area as a target position according to the selection instruction. In addition, the configuration apparatus 120 may also select a location point from the location area as a target location based on a preset screening policy; a location point may also be randomly selected from the location area as the target location.

Through the above binding manner, the number of the terminal devices at the positions on the bound position diagram is M, and the value of M is greater than the value of N, and for the terminal devices at the positions on the subsequent unbound position diagram, an optional binding scheme is provided in the embodiment of the present invention, that is, the configuration device 120 selects a specified number of terminal devices from the M terminal devices at the positions on the bound position diagram, determines the current positions of the remaining unbound terminal devices on the position diagram by using the specified number of terminal devices, and binds the remaining unbound terminal devices with the current positions.

Further, a specified number of terminal devices send out signals as beacons, and the remaining unbound terminal devices receive the signals sent out by the specified number of terminal devices and feed back the corresponding received signal strength to the configuration apparatus 120. After receiving the received signal strength fed back by the remaining unbound terminal devices, the configuration device 120 calculates physical distances between the remaining unbound terminal devices and the specified number of terminal devices, respectively, according to the received signal strength, and converts plane distances between the remaining unbound terminal devices and the specified number of terminal devices, respectively, on the second display interface 22; and then, according to the converted plane distance and the positions of the position schematic diagrams of the specified number of terminal devices on the second display interface 22, determining the corresponding current positions of the remaining unbound terminal devices on the position schematic diagrams. The specified number here may be a positive integer greater than or equal to 2, and when the specified number is 2, if the corresponding positions of the remaining unbound terminal devices on the position diagram determined by the configuration apparatus 120 include two positions to be selected; the configuration means 120 may select one of the two candidate locations as the current location.

In an optional embodiment of the present invention, the configuration apparatus 120 is further configured to, after the unbound terminal device is bound with the target location, mark the unbound terminal device as a bound terminal device on the target location, so that the binding result is more intuitive.

In an alternative embodiment of the present invention, since the plurality of terminal devices 110 access the network, that is, the gateway or the router of the access network, when acquiring the information of the plurality of terminal devices 110 accessing the network, the configuration apparatus 120 may directly acquire the information of the plurality of terminal devices from the gateway or the router of the network. The information here may include the device model, logo, icon, etc. of the terminal device.

In the above, various implementation manners of each link of the embodiment shown in fig. 1 are introduced, and the terminal device binding system of the present invention will be described in detail through specific embodiments.

Referring to fig. 2, the terminal device binding system 200 may include a plurality of terminal devices and configuration apparatuses accessing a network, where the terminal devices are lamps. The light fixtures shown in fig. 2 include A, B, C and D, and in practical applications, the number of light fixtures may exceed hundreds or thousands, etc., and four light fixtures are only schematically listed here. Configuration device E is used for the distribution network and binds lamps and lanterns, and E can be handheld configuration device, such as smart mobile phone, panel computer or notebook computer etc.. The lamps and the configuration device access the network, specifically, networking between the lamps A, B, C and D may be performed through a wireless technology, where the wireless technology may be technologies such as WIFI, bluetooth, and Zigbee, the configuration device E is connected to any one of the lamps A, B, C and D, and in accessing the network, if the network of networking of the lamps and the configuration device E cannot be identified by the configuration device E, the configuration device E needs to add a converter (not shown in fig. 2) to convert the network protocol of the lamps and the lighting into a protocol that can be identified by the configuration device E.

The configuration device E provides two display interfaces, the first display interface 11 is a lamp list, the distribution network is to add the configuration device E and the identifiable lamps to the same network, and display the list of lamps already added to the network in the first display interface 11. The second display interface 22 is a schematic diagram of a location where a lamp is installed, such as a floor plan of a building, a floor plan of a field layout, or an installation location map, and the binding is to drag the icons of the lamps A, B, C and D to a suitable location in the second display interface 22, and the location and the schematic diagram of the location are combined to correspond to an actual physical location of the lamp. After the lamps are bound, the later grouping, logic function definition and other settings can be conveniently carried out.

Referring to fig. 3, luminaires a, b, c and D, which have joined the network, are shown in the first presentation interface 11, corresponding to luminaires A, B, C and D, respectively, which need to be bound to corresponding positions of the position diagram of the second presentation interface 22. The configurator confirms the physical locations of the light fixtures A, B and C by manual operation and drags the corresponding icons a, b and C to the appropriate locations of the second presentation interface 22 for binding, i.e. the value of N is taken to be 3 in the embodiment of fig. 1. After the lamps A, B and C are bound, the lamps D send out signals as beacons, the lamps D receive the signals sent by the lamps A, B and C, and feed back the received signal strengths RSSI _ A, RSSI _ B and RSSI _ C to the configuration device E, the configuration device E calculates the physical distances AD, BD and CD between D and A, B and C, respectively, according to the received signal strengths, and converts the plane distances dy, dz and dx corresponding to the second presentation interface 22, so as to obtain the corresponding position D of the lamp D on the second presentation interface 22 according to the plane distances and the position of the position diagram of A, B, C on the second presentation interface 22, and then drags the icon D to the position D of the second presentation interface 22 for binding.

It can be seen that, in the embodiment of the present invention, the bound device is used as a beacon to send out a signal, the wireless positioning technology is used to calculate the distance between the unbound device and the bound device, determine the specific physical location of the unbound device, and automatically move the icon of the unbound device to the corresponding location of the second display interface on the configuration apparatus for binding.

In an alternative embodiment, there are one or more lamps A, B and C as beacon emission signals, and taking the example that lamp a emits multiple signals, lamp D receives the multiple signals emitted by lamp a, and may determine an average received signal strength based on the multiple signals (the average received signal strength is taken as received signal strength RSSI _ a), or may determine multiple received signal strengths based on the multiple signals, respectively. At this time, there are a plurality of received signal strengths RSSI _ a fed back to the configuration device E by the luminaire D, so that there are a plurality of physical distances AD between D and a calculated by the configuration device E, and a plurality of planar distances dy between D and a on the second display interface 22, so as to obtain a plurality of corresponding positions D of the luminaire D on the second display interface 22 according to the positions of the position schematic diagram on the second display interface 22 of the plurality of dy, dz, dx and A, B, C, thereby generating a position area including a plurality of position points. Then, the configurator may select a position point from the generated position area as a target position d, and drag the icon d to the target position d of the second presentation interface 22 for binding. It should be noted that, this embodiment only exemplifies a case where the lamp a sends multiple signals, and in practical applications, both the lamps B and C may send multiple signals, and the processing manners are the same, and are not described herein again.

In another alternative embodiment, any two of the light fixtures A, B, C may also be utilized to achieve location binding of the light fixture D. Taking the example of binding the position of the luminaire D with the luminaire A, B, the configurator confirms the physical position of the luminaire A, B through manual operation, and drags the corresponding icon a, b to the appropriate position of the second presentation interface 22 for binding, that is, the value of N is 2 in the embodiment corresponding to fig. 1. After the lamp A, B is bound, the lamp D sends out a signal as a beacon, receives the signal sent by the lamp A, B, and feeds back the received signal strength RSSI _ A, RSSI _ B to the configuration device E, the configuration device E calculates the physical distances AD and BD between D and A, B according to the received signal strength, and converts the plane distances dy and dz corresponding to the second presentation interface 22, so as to obtain the corresponding position D of the lamp D on the second presentation interface 22 according to the plane distance and the position of the position diagram of A, B on the second presentation interface 22, and then drags the icon D to the position D of the second presentation interface 22 for binding. Here, if there are two positions to be selected in the position d, one of the two positions to be selected is selected as the target position d, and the icon d is dragged to the target position d of the second display interface 22 for binding. In this embodiment, also in case that the luminaire a emits a plurality of signals, the last determined luminaire D is present in a plurality of corresponding positions D of the second presentation interface 22, thereby generating a location area comprising a plurality of location points. Subsequently, the configurator may select a position point from the generated position area as the target position d, and drag the icon d to the target position d of the second presentation interface 22 for binding.

In an optional embodiment of the present invention, for other terminal devices in the terminal device binding system 200, such as a lamp, a household appliance, and the like, the wireless positioning technology described above may also be used for binding. Taking a lamp F (not shown in fig. 3) as an example, the lamps A, B and C send signals as beacons, the lamp F receives the signals sent by the lamps A, B and C, and feeds back corresponding received signal strengths to the configuration device E, the configuration device E calculates physical distances AF, BF and CF between F and A, B and C, respectively, according to the received signal strengths, and converts corresponding distances dyy, dzz and dxx in the second display interface 22 to obtain a corresponding position F1 of the lamp F in the second display interface 22, and then drags the icon F to the position F1 of the second display interface 22 for binding.

In an optional embodiment of the present invention, the luminaires B, C and D may also be used to bind the luminaire F, that is, the luminaires B, C and D send out signals as beacons, the luminaire F receives the signals sent by the luminaires B, C and D and feeds back the corresponding received signal strength to the configuration device E, the configuration device E calculates the physical distances BF, CF, and DF between F and B, C and D, respectively, according to the received signal strengths, and converts the corresponding distances dyyy, dzzz, and dxxx in the second presentation interface 22, so as to obtain the corresponding position F2 of the luminaire F in the second presentation interface 22, and then drags the icon F to the position F2 of the second presentation interface 22 for binding.

The position f1 and the position f2 in the two embodiments are the same, and in consideration of errors in the calculation process, the position f1 and the position f2 may have errors, so that the binding requirement is met within a certain error range.

It should be noted that the device serving as the beacon and the devices to be bound later may be of the same device type, for example, both are lamps, only N lamps are manually bound as beacons first, and the remaining lamps that are not bound are automatically bound; it may also be a different type of device, for example, the device as a beacon is simply a wireless device with an indicator light, the configurator first places these wireless devices at a specific location known to the building plane, manually binds these wireless devices on the configurator, and then the devices that need to be bound are luminaires, the location of all luminaires being automatically determined by the wireless device beacon.

Based on the same inventive concept, an embodiment of the present invention further provides a terminal device binding method, which may be applied to a configuration apparatus that provides a first presentation interface and a second presentation interface, as shown in fig. 4, and the terminal device binding method may include the following steps S402 to S406.

Step S402, obtaining information of a plurality of terminal devices accessed to a network, and presenting a list of the plurality of terminal devices on a first display interface according to the information of the plurality of terminal devices; and acquiring a position schematic diagram of the terminal equipment, and presenting the position schematic diagram on a second display interface.

Step S404, receiving a selection operation of a configurator for a list of a plurality of terminal devices on the first display interface and a positioning operation for the location diagram on the second display interface, and binding an identifier of a terminal device corresponding to the selection operation with a location on the location diagram corresponding to the positioning operation.

Step S406, determining a target position corresponding to the unbound terminal device on the position diagram by using the N terminal devices at the positions on the bound position diagram, and binding the unbound terminal device with the target position.

In step S406, the target position corresponding to the unbound terminal device on the location diagram is determined by using the N terminal devices at the locations on the bound location diagram. Here, if there is one signal transmitted from each of the N terminal apparatuses, the number of received signal strengths is N in total. In practical application, if there is one or more signals sent by each terminal device of the N terminal devices, then for the terminal device sending one signal, the unbound terminal device receives one signal of the terminal device, and feeds back the received signal strength corresponding to the one signal to the configuration device; for the terminal equipment which sends out a plurality of signals, the unbound terminal equipment receives the plurality of signals of the terminal equipment and feeds back the received signal strengths corresponding to the plurality of signals to the configuration device.

After receiving the received signal strength fed back by the unbound terminal devices, the configuration device calculates physical distances between the unbound terminal devices and the N terminal devices, respectively, according to the received signal strength, and converts plane distances between the unbound terminal devices and the N terminal devices, respectively, on the second display interface 22; and then, according to the converted plane distance and the positions of the position schematic diagrams of the N terminal devices on the second display interface 22, determining the corresponding target positions of the unbound terminal devices on the position schematic diagrams.

N provided in the foregoing embodiments is a positive integer greater than or equal to 2, and when N is 2, if the position corresponding to the unbound terminal device on the position diagram determined by the configuration apparatus includes two positions to be selected; the configuration means may select one of the two candidate positions as the target position. In an alternative embodiment, the configuration device may mark two candidate positions on the position diagram; and when a selection instruction of a configurator is received, selecting one of the two positions to be selected as a target position according to the selection instruction. In addition, the configuration device can also select one of the two positions to be selected as a target position based on a preset screening strategy; one of the two candidate positions can be randomly selected as a target position.

In an alternative embodiment of the present invention, as described above, there are one or more of the signals sent by each of the N terminal devices. For each terminal device in the N terminal devices, if the terminal device sends out a plurality of signals when serving as a beacon, the unbound terminal devices receive a plurality of signals sent out by the terminal device, and the corresponding received signal strengths also include a plurality; the physical distance between the unbound terminal equipment and the terminal equipment calculated by the configuration device also comprises a plurality of physical distances, and the plane distance between the unbound terminal equipment and the terminal equipment also comprises a plurality of plane distances; the corresponding position of the unbound terminal equipment on the position schematic diagram determined by the configuration device is a position area, and the position area consists of a plurality of position points; the configuration means may select a location point from the location area as the target location.

In an alternative embodiment, the configuration means may provide location areas on the location map; and when a selection instruction of a configurator is received, selecting a position point from the position area as a target position according to the selection instruction. In addition, the configuration device can also select a position point from the position area as a target position based on a preset screening strategy; a location point may also be randomly selected from the location area as the target location.

In the above, various implementation manners of each link of the embodiment shown in fig. 4 are introduced, and the implementation process of the terminal device binding method of the present invention will be described in detail through specific embodiments. Fig. 5 shows a flowchart of a terminal device binding method according to another embodiment of the present invention, and referring to fig. 5, the terminal device binding method may include the following steps S502 to S512.

Step S502, a network is distributed, a list of a plurality of terminal devices is obtained, and the list of the plurality of terminal devices is displayed on a first display interface.

In this step, the plurality of terminal devices may be the same type of device, or may be different types of devices, for example, a lamp, a home appliance, a camera, and the like, which is not limited in the present invention.

Step S504, a terminal device is selected on the first display interface, and the physical position of the terminal device is confirmed.

Step S506, dragging the icon of the terminal device to a corresponding position on the position diagram of the second display interface, and repeating step S504 to bind N terminal devices, where N is a positive integer greater than or equal to 2.

Step S508, sending out signals by using the N terminal devices bound with the position on the position diagram as beacons.

Step S510, calculating a physical distance between the terminal device and the beacon at the position on the unbound position diagram by using a wireless positioning technology.

In this step, N terminal devices send out signals as beacons, and unbound terminal devices receive the signals sent by the N terminal devices and feed back corresponding received signal strengths to the configuration apparatus.

And after receiving the received signal strength fed back by the unbound terminal equipment, the configuration device calculates the physical distances between the unbound terminal equipment and the N pieces of terminal equipment respectively according to the received signal strength.

Step S512, the plane distance between the unbound terminal device and the beacon on the second display interface is calculated according to the calculated physical distance, and then the target position corresponding to the unbound terminal device on the position schematic diagram is determined according to the calculated plane distance and the position of the position schematic diagram of the beacon on the second display interface, and the unbound terminal device is bound with the target position.

After this step, unbound terminal devices can be marked on the target location as bound terminal devices, making the binding result more intuitive.

The embodiment of the invention can flexibly realize the quick binding of the terminal equipment on the first display interface and the second display interface provided by the configuration device; the configuration device can determine the target position corresponding to the unbound terminal equipment on the position schematic diagram by using the N terminal equipment at the position on the bound position schematic diagram, and bind the unbound terminal equipment with the target position, thereby realizing the automatic binding of the terminal equipment in the configuration device, greatly reducing the workload of configuration personnel and reducing the error probability.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are only exemplary embodiments of the present invention, and are not intended to limit the present invention, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A terminal device binding system is characterized by comprising a plurality of terminal devices and a configuration device which are accessed into a network;

2. The system for binding terminal devices according to claim 1, wherein the N terminal devices send out signals as beacons, and the unbound terminal devices receive the signals sent by the N terminal devices and feed back corresponding received signal strengths to the configuration apparatus, where N is a positive integer greater than or equal to 2;

the configuration device is further configured to calculate physical distances between the unbound terminal devices and the N terminal devices, respectively, according to the received signal strength fed back by the unbound terminal devices, and convert plane distances between the unbound terminal devices and the N terminal devices, respectively, on the second display interface; and determining the corresponding target positions of the unbound terminal devices on the position schematic diagram according to the converted plane distance and the positions of the position schematic diagram of the N terminal devices on the second display interface.

3. The system for binding terminal devices according to claim 2, wherein when N is 2, if the corresponding position of the unbound terminal device on the position diagram determined by the configuration apparatus includes two candidate positions;

4. The terminal device binding system of claim 3, wherein the configuration means is further configured to mark the two candidate locations on the location map; and when a selection instruction of a configurator is received, selecting one of the two positions to be selected as the target position according to the selection instruction.

5. The system according to claim 2, wherein for each terminal device of the N terminal devices, if the terminal device sends out a plurality of signals when serving as a beacon, the number of signals sent by the terminal device received by the unbound terminal device is multiple, and the corresponding received signal strength is also multiple; the physical distance between the unbound terminal device and the terminal device calculated by the configuration device also includes a plurality of physical distances, and the plane distance between the unbound terminal device and the terminal device also includes a plurality of plane distances; the position corresponding to the unbound terminal device on the position diagram determined by the configuration device is a position area, and the position area is composed of a plurality of position points;

6. The terminal device binding system of claim 5, wherein the configuration means is further configured to provide the location area on the location map; and when a selection instruction of a configurator is received, selecting a position point from the position area as the target position according to the selection instruction.

7. The system according to claim 1 or 2, wherein the configuration apparatus is further configured to select a specified number of terminal devices from M terminal devices that have already bound the location on the location diagram, determine, using the specified number of terminal devices, current locations of remaining unbound terminal devices on the location diagram, and bind the remaining unbound terminal devices with the current locations, where a value of M is greater than a value of N.

8. The system according to claim 1, wherein the configuration device is further configured to mark the unbound terminal device as a bound terminal device at the target location after binding the unbound terminal device with the target location.

9. The terminal device binding system of claim 1, wherein the network comprises a wireless network, and wherein a communication protocol of the wireless network comprises any one of WIFI, bluetooth, and Zigbee.

10. The terminal device binding system of claim 1, wherein the configuration means is further configured to: and obtaining the information of the plurality of terminal devices from a gateway or a router of the network.

11. The terminal device binding system of claim 1, wherein the plurality of terminal devices comprise light fixtures; the configuration device is a handheld terminal and comprises any one of a smart phone, a tablet computer and a notebook computer.

12. A terminal equipment binding method is applied to a configuration device, the configuration device provides a first display interface and a second display interface, and the terminal equipment binding method comprises the following steps:

13. The terminal device binding method according to claim 12,

the N terminal devices serve as beacons to send out signals, the unbound terminal devices receive the signals sent by the N terminal devices and feed back corresponding received signal strength to the configuration device, wherein N is a positive integer greater than or equal to 2;

14. The method for binding terminal devices according to claim 13, wherein when N is 2, if the determined corresponding position of the unbound terminal device on the position diagram includes two candidate positions; the method further comprises the following steps:

and selecting one of the two candidate positions as the target position.

15. The method for binding terminal equipment according to claim 14, wherein selecting one of the two candidate locations as the target location comprises:

marking the two candidate positions on the position schematic diagram;

16. The method according to claim 13, wherein for each terminal device of the N terminal devices, if the terminal device sends out a plurality of signals when serving as a beacon, the number of signals sent by the terminal device received by the unbound terminal device is multiple, and the corresponding received signal strength is also multiple; the physical distance between the unbound terminal equipment and the terminal equipment calculated by the configuration device also comprises a plurality of physical distances, and the plane distance between the unbound terminal equipment and the terminal equipment also comprises a plurality of plane distances; the position corresponding to the unbound terminal device on the position diagram determined by the configuration device is a position area, and the position area is composed of a plurality of position points; the method further comprises the following steps:

and selecting a position point from the position area as the target position.

17. The method for binding terminal equipment according to claim 16, wherein selecting a location point from the location area as the target location comprises:

providing the location area on the location map;

18. The terminal device binding method according to claim 12 or 13, wherein after binding the unbound terminal device with the target location, the method further comprises:

19. The method of claim 12, wherein after binding the unbound terminal device to the target location, the method further comprises:

20. The method for binding terminal devices according to claim 12, wherein the network comprises a wireless network, and the communication protocol of the wireless network comprises any one of WIFI, bluetooth and Zigbee.

21. The method for binding terminal device according to claim 12, wherein the obtaining information of a plurality of terminal devices accessing a network comprises:

22. The terminal device binding method according to claim 12, wherein the plurality of terminal devices comprise a lamp; the configuration device is a handheld terminal and comprises any one of a smart phone, a tablet computer and a notebook computer.