CN107219810B - Building control method - Google Patents

Abstract

The application provides a building control method. In this application, the building control method includes: determining a target path; the target path comprises a starting position, an end position and at least one channel connecting the starting position and the end position in the building; generating a target route according to the target path; the target route is a set comprising at least one-dimensional line segment, the at least one-dimensional line segment is connected end to form the target route, the one-dimensional line segment is used for identifying a channel, and the line segment carries information of building equipment corresponding to the channel; determining a trigger condition corresponding to the target route; and controlling the building equipment according to the triggering condition and the target route. The technical scheme of the application is simple to realize, low in cost, and capable of avoiding the problems of inaccurate path positioning, control delay and the like caused by using a sensor to position a user.

Description

Building control method

Technical Field

The application relates to the technical field of building control, in particular to a building control method.

Background

In building systems, particularly commercial buildings, the behavior of users is generally two, the first: fixed in a fixed position, second: move to another position. Most building control systems, including air conditioning systems, are primarily concerned with the application of the first scenario described above, namely the control action taken when a user is fixed in a certain location.

Some control systems (including air conditioning systems) or security systems may focus on the second situation described above, i.e. when the user moves, the corresponding control is performed. For this situation, the following information is mainly focused and corresponding actions are taken: firstly, the method comprises the following steps: the position of the starting point position of the user; secondly, the method comprises the following steps: the location of the destination the user wants to go; thirdly, the method comprises the following steps: actual maps and navigation information for the building are generated. In such control systems, a mobile sensing, wireless or image manner is usually adopted, that is, a mobile, wireless communication or camera/infrared device is adopted to assist in positioning the position of the user, and a complex map is also generated.

Disclosure of Invention

The embodiment of the application provides a building control method which is simple to implement and low in cost.

Some embodiments of the present application provide a building control method, which is applied to a server, and the method includes:

determining a target path; the target path comprises a start location, an end location, and at least one channel connecting the start location and the end location in the building;

generating a target route according to the target path; the target route is a set comprising at least one-dimensional line segment, the at least one-dimensional line segment is connected end to form the target route, the one-dimensional line segment is used for identifying the channel, and the line segment carries information of building equipment corresponding to the channel;

determining a trigger condition corresponding to the target route;

and controlling the building equipment according to the triggering condition and the target route.

The embodiment of the application achieves the main technical effects that: the building equipment corresponding to the target path can be controlled through the target path preset by the user and the corresponding trigger condition, the realization is simple, the moving path of the user can be prevented from being detected by adopting a large number of sensors, the cost of building control is reduced, and the problems of inaccurate path positioning, control delay and the like caused by the fact that the user is positioned by using the sensors can be avoided.

In an embodiment of the present application, the determining the target path may include:

sending the two-dimensional channel map of the building to a client;

receiving a first path from the client determined based on the two-dimensional channel map;

determining the target path based on the first path.

According to the technical scheme, the two-dimensional channel map of the building can be provided for the client, so that a user can visually know the building channel information through the client, and the target path can be determined according to the building channel information.

In an embodiment of the present application, after receiving the first path determined based on the two-dimensional channel map, the method may further include:

sending at least one second path recommended based on the first path to the client;

the determining the target path based on the first path may include:

receiving a third path from the client based on the first path and the at least one second path being selected;

determining the third path as the target path.

According to the technical scheme, the recommended path can be provided for the user to select based on the path provided by the user, and the target path is determined based on the path selected by the user, so that a plurality of reference paths can be provided for the user to select, and the user experience can be improved.

In an embodiment of the present application, after receiving the first path determined based on the two-dimensional channel map, the method may further include:

sending an inquiry message whether to return according to the original path of the first path or not;

receiving a response message based on the query message;

if the response message is returned according to the original path of the first path, a fourth path is obtained based on the response message and the first path; wherein a starting position of the fourth path is an end position of the first path, and the end position of the fourth path is a starting position of the first path;

the determining the target path based on the first path may include:

determining both the first path and the fourth path as the target path.

According to the technical scheme, the option of returning according to the original route can be provided for the user, the user can conveniently determine the returning route, and the time for the user to determine the target route is saved.

In an embodiment of the present application, the generating a target route according to the target path may include:

determining a direction of the target path based on the target path; the direction of the target path comprises going upstairs and going downstairs;

determining a one-dimensional line segment for identifying a staircase based on the direction of the target path; the lengths of the one-dimensional line segments for marking the upstairs and downstairs of the same stair are different;

and generating a target route based on the one-dimensional line segments for identifying the stairs.

In an embodiment of the present application, the determining the trigger condition corresponding to the target route may include:

receiving a reserved time from a client for triggering the target route;

determining the trigger condition based on the reserved time.

According to the technical scheme, the user can be allowed to set the reserved time of the target path as the trigger condition, and the user can enjoy the building equipment on the target path in the reserved time for a long time to provide convenience for the building equipment after setting the reserved time once.

The controlling the building device according to the trigger condition and the target route may include:

and triggering the building equipment to work when the reserved time is reached.

In one embodiment of the present application, the controlling the building device according to the trigger condition and the target route may include:

receiving information indicating that a user arrives at the starting position; the user reaching the starting position is the trigger condition;

triggering the building equipment to work based on the information for indicating the user to reach the starting position.

According to the technical scheme, the building equipment can be triggered to work when the information that the user arrives at the starting point position is obtained, and therefore the building equipment can be controlled to work in time.

In an embodiment of the present application, before controlling the building device according to the trigger condition and the target route, the method may further include:

receiving setting information used for determining the working mode of the building equipment from a client;

the controlling the building equipment according to the triggering condition and the target route comprises the following steps:

and controlling the building equipment according to the triggering condition, the target route and the setting information.

According to the technical scheme, the user can be allowed to set the working mode of the building equipment, so that the building equipment can work according to the setting of the user, and personalized service is provided for the user.

In one embodiment of the present application, the building devices may include any combination of lighting devices, air conditioning devices, fresh air systems, security devices.

Drawings

Fig. 1 is a flow chart illustrating a building control method according to an exemplary embodiment of the present application.

Fig. 2 is a flow chart of a building control method according to yet another exemplary embodiment of the present application.

Fig. 3 is a flow chart of a building control method according to yet another exemplary embodiment of the present application.

Fig. 4 is a flow chart of a building control method according to yet another exemplary embodiment of the present application.

Fig. 5 is a flow chart of a building control method according to yet another exemplary embodiment of the present application.

FIG. 6 is a flow chart of a building control method according to yet another exemplary embodiment of the present application.

Fig. 7 is a flow chart of a building control method according to yet another exemplary embodiment of the present application.

Fig. 8 is a flow chart of a building control method according to yet another exemplary embodiment of the present application.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present application, as detailed in the appended claims.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in this application and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

It is to be understood that although the terms first, second, third, etc. may be used herein to describe various information, such information should not be limited to these terms. These terms are only used to distinguish one type of information from another. For example, first information may also be referred to as second information, and similarly, second information may also be referred to as first information, without departing from the scope of the present application. The word "if" as used herein may be interpreted as "at … …" or "when … …" or "in response to a determination", depending on the context.

Some embodiments of the present application will be described in detail below with reference to the accompanying drawings. The embodiments described below and the features of the embodiments can be combined with each other without conflict.

At present, building services such as lighting control, air conditioning control, fresh air system control and the like which are convenient for a user to navigate or provide for the user based on a user moving path in a building need to adopt a mobile induction, wireless or image mode, namely, mobile, wireless communication or camera/infrared equipment is adopted to assist in positioning the position of the user, and a complex map is generated. The cost of building control is improved due to the fact that a large number of sensors are needed, the building system is complex in internal building structure, multiple in shelters, poor in accuracy of mobile induction, wireless or image recognition and positioning, built maps and navigation information are not accurate, meanwhile, if the user moves fast, the system cannot respond to the change system of the user position in time, control delay is caused, and user experience is poor.

Based on this, the embodiment of the application provides a building control method, which is not only simple to implement and low in cost, but also can avoid the problems of inaccurate path positioning, control delay and the like caused by positioning a user by adopting a sensor.

Referring to fig. 1, a building control method provided in an exemplary embodiment of the present application is applied to a server. The building control method comprises the following steps of S101-S104:

in step S101, a target path is determined. The target path includes a start location, an end location, and at least one channel connecting the start location and the end location in the building.

In the embodiment of the application, the target path is set by the user at the client and submitted to the server by the client. For the starting point position, the user can set according to the passageway condition of the building and the requirement of the user, and can also set as the position of the entrance guard device in the building. For the destination location, it may be the user's destination location, such as building 17 1711. The passage connecting the starting position and the end position may comprise any combination of a corridor, an elevator, a step. For example, if the starting point of the user is the position of the access control device, and the ending point of the user is 17 th 1711 th room in a lobby of a building, there are many combinations of passages between the position of the access control device and the 17 th 1711 th room, for example, a combination of passages in which the passages located on the same floor are only elevator passages except that the passage located on the same floor is walking: the entrance guard device is arranged in a passageway from the position of the entrance guard device to the elevator door of the building 1, an elevator passageway from the building 1 to the building 17, and a passageway from the elevator door position of the building 17 to the room 1711 of the building 17. Of course, many other foreseeable combinations of channels exist and are not described in detail herein.

In step S102, a target route is generated from the target route. The target route is a set comprising at least one-dimensional line segment, the at least one-dimensional line segment is connected end to form the target route, the one-dimensional line segment is used for identifying a channel, and the line segment carries information of building equipment corresponding to the channel.

In embodiments of the present application, one-dimensional line segments without directions are used to identify one or a segment of a corridor, so that a set of multiple one-dimensional line segments can represent a segment of a path in a building, but do not carry the shape of the path, the orientation of the path to each other, and the like.

Wherein a channel that can be identified by a one-dimensional line segment has the following properties:

1. one or a section of channel has only one starting point and one end point;

2. the starting point and the end point of the channel can be interchanged unless the channel is in one-way traffic;

3. if the two channels need to be connected, the two channels can only pass through the starting point and the end point; i.e. one channel cannot be connected by another channel at non-starting and non-ending points. For example, when two channels form a t-junction, the two channels are identified by 3 line segments instead of 2 line segments, and, for example, when two channels form an intersection, the two channels are identified by 4 line segments instead of 2 line segments;

4. the starting position and the end position of the user must be on a certain channel;

5. if the starting point position and the end point position of the user are not at the starting point or the end point of a certain channel and are far away from the starting point and the end point of the channel, the channel can be divided into 2 channels;

6. there may be steps, elevators, etc. between different floors, each elevator/step may also be represented by a one-dimensional line segment and length, etc., the length characteristic is determined according to the characteristics of the elevator/step and has a relation with the user's moving direction, like a staircase (elevator/step), the length may be set to be different when going upstairs and downstairs. Thus all the channels of all the floors of the whole building can be represented by a set of one-dimensional line segments;

7. the criteria for distinguishing different passageways are not shapes (straight lines, turns, broken lines, curves, slopes), but branches, steps, elevators, access controls, etc.

These one-dimensional line segment bands may also carry the following information: information of building equipment corresponding to the passageway, characteristics of the passageway, such as length, width, decorative condition, type of passageway, and the like, and obvious signs on or near the passageway, such as toilets, security rooms, terraces, and the like. The building equipment comprises any combination of lighting equipment, air conditioning equipment, a fresh air system and security equipment.

In step S103, a trigger condition corresponding to the target route is determined. The trigger condition may be set by the user through the client and submitted by the client to the server.

In step S104, the building equipment is controlled according to the trigger condition and the target route. And when the triggering condition is met, triggering the building equipment corresponding to the target route to work, so as to provide convenience for the user.

In the embodiment of the application, the building equipment corresponding to the target path can be controlled through the target path preset by the user and the corresponding trigger condition, the implementation is simple, the moving path of the user can be prevented from being detected by a large number of sensors, the cost of building control is reduced, and the problems of inaccurate path positioning, control delay and the like caused by the fact that the user is positioned by the sensors can be avoided.

Referring to fig. 2, a building control method according to another exemplary embodiment of the present application is provided. In this embodiment, an example of determining a target route based on a route submitted by a user is described. In this embodiment, the step of determining the target path specifically includes the following steps S201 to S203:

in step S201, a two-dimensional passage map of the building is transmitted to the client.

In step S202, a first path determined based on the two-dimensional channel map is received from the client.

In step S203, the target path is determined based on the first path.

In this embodiment, the client may be installed on a fixed terminal in a building, and the terminal may provide a display screen and an input device, where the display screen may be a touch screen and may also receive user input information.

The method comprises the steps that when a client receives an instruction which is input by a user and used for determining a target path, the instruction is submitted to a server used for controlling building equipment, the server responds to the instruction and sends a two-dimensional channel map of the building to the client, and the client displays the two-dimensional channel map after receiving the two-dimensional channel map. The two-dimensional channel map includes all channels in the building, and can be displayed in different floors, for example, a user can view the channels of each floor and the channels (elevators, stairways, etc.) between each floor.

Based on the two-dimensional channel map, a user can select a starting point position, an end point position and at least one channel connecting the starting point position and the end point position to determine a first path, and the first path is submitted to a server through a client after the first path is determined. The server may determine the first path as the target path after receiving the first path.

In this embodiment, the two-dimensional channel map of the building can be provided to the client, so that the user can visually know the building channel information through the client, and accordingly determine the target path, and the target path can be determined based on the path submitted by the user, which is simple to implement.

Referring to fig. 3, a building control method according to another exemplary embodiment of the present application is provided. In this embodiment, an example of determining a target route based on a route submitted by a user and a recommended route is described. In this embodiment, the step of determining the target path specifically includes the following steps S301 to S305:

in step S301, a two-dimensional passage map of the building is transmitted to the client.

In step S302, a first path determined based on the two-dimensional channel map is received from the client.

In step S303, at least one second path recommended based on the first path is sent to the client.

In step S304, a third path based on the first path and the at least one second path selected is received from the client.

In step S305, the third path is determined as the target path.

In this embodiment, after receiving a first path submitted by a user, a server may send a plurality of recommended second paths to a client based on the first path, where a start position of the second path is the same as a start position of the first path, and an end position of the second path is the same as an end position of the first path. The client displays the second path and the first path together after receiving the plurality of recommended second paths, wherein the client displays the second path and the first path by arranging the second path and the first path in a two-dimensional channel map, so that a user can conveniently obtain information of the second path in a concrete and vivid manner, compare the displayed paths, select a path which meets actual requirements better as a third path and submit the third path to the server.

In this embodiment, the server may further evaluate the first path and the recommended second path, provide evaluation information of each path, such as little walking, short time, good air, and the like, and send the evaluation information of each path to the client for display for the user to refer to, which may assist the user to quickly determine a path that meets the actual requirement as a third path, and improve the efficiency of the user in determining the target path.

In the embodiment, a plurality of recommended paths are provided based on the paths submitted by the user for the user to select, and the target path is determined based on the path selected by the user, so that the user can conveniently select the path which meets the actual requirement as the target path, and the user experience is improved.

Referring to fig. 4, a building control method according to another exemplary embodiment of the present application is provided. In this embodiment, a description will be given taking an example in which a target route is determined based on a demand that a user returns along an original route. In this embodiment, the step of determining the target path specifically includes the following steps S401 to S406:

in step S401, a two-dimensional channel map of the building is sent to a client.

In step S402, a first path determined based on the two-dimensional channel map is received from the client.

In step S403, an inquiry message is sent whether to return according to the first path.

In step S404, a response message based on the inquiry message is received.

In step S405, if the response message is returned according to the original path of the first path, a fourth path is obtained based on the response message and the first path; the starting position of the fourth path is the end position of the first path, and the end position of the fourth path is the starting position of the first path.

In step S406, both the first path and the fourth path are determined as the target path.

In this embodiment, the first path submitted by the user through the client may be one of the target paths, after receiving the first path submitted by the user through the client, the server sends, to the client, an inquiry message inquiring whether the user returns according to the original path based on the first path, the user responds to the message through the client, and the client sends, to the server, a response message based on the inquiry message after receiving a response instruction from the user. The response message may be a message returned according to the first path, or may be a message not returned according to the first path. And when the response message is a message returned according to the original path of the first path, the server replaces the starting position and the end position of the first path to obtain a fourth path, and the first path and the fourth path are determined as the target path.

In the subsequent step of generating the target route according to the target route, two target routes may be generated simultaneously based on the first route and the fourth route, or the first route may be generated based on the first route, and then the start position and the end position of the first route are replaced to obtain the second route, where the first route and the second route are both the target routes.

In this embodiment, the user may be asked whether to return according to the original route, and when the user needs to return according to the original route, the return route may be directly obtained based on the route submitted by the user, without repeatedly selecting the starting point position, the ending point position, and the channel connecting the starting point position and the ending point position by the user to determine the return route, so that the user may determine the target route quickly.

Referring to fig. 5, a building control method according to another exemplary embodiment of the present application is provided. In this embodiment, how to generate a one-dimensional segment of a staircase in a target route is taken as an example for explanation. In this embodiment, the step of generating the target route according to the target path specifically includes the following steps S501 to S503:

in step S501, the direction of the target path is determined based on the target path. The direction of the target path includes upstairs and downstairs.

In step S502, a one-dimensional line segment for identifying a staircase is determined based on the direction of the target path. The lengths of the one-dimensional line segments for marking the upstairs and downstairs of the same stair are different.

In step S503, a target route is generated based on the one-dimensional line segment for identifying the stairs.

In this embodiment, the direction of the target path, i.e., the direction in which the user moves, is determined first, and then the one-dimensional line segment identifying the staircase is determined according to the direction identifier of the target path. For the same stair as the channel, the user may go upstairs along the channel or downstairs along the channel, and in order to distinguish two different situations and facilitate the server identification, the same stair can be identified by adopting one-dimensional line segments with different lengths, for example, the length of the line segment for identifying the stair is greater than that of the line segment for identifying the stair when going upstairs, and the implementation is simple.

In this embodiment, the one-dimensional line segment for identifying the staircase is determined according to the direction of the target path, so as to distinguish the one-dimensional line segment for identifying the same staircase in the target paths with different directions, thereby facilitating the identification of the server and being simple to implement.

Referring to fig. 6, a building control method according to another exemplary embodiment of the present application is provided. In this embodiment, a description will be given taking a trigger condition as an example of a reserved time. In this embodiment, the step of determining the trigger condition corresponding to the target route specifically includes the following steps S601 to S602:

in step S601, a reserved time for triggering the target route is received from the client.

In step S602, the trigger condition is determined based on the reserved time.

In this embodiment, the user can set the reservation time of the target path through the client. The reserved time is used for triggering the server to control the corresponding building equipment based on the target path. Specifically, the client receives the reserved time input by the user and submits the reserved time to the server, and the server configures the reserved time as a trigger condition of the target path. When the server detects that the current time reaches the reserved time, the building equipment corresponding to the target path is triggered to work (such as lighting, air conditioning equipment, a fresh air system and the like) so as to provide convenience for the user.

And when the server detects that the user reaches the target position, the server controls the building equipment to be closed so as to save energy. For example, when a tenant swipes a house card, and opens a door, a card reading device arranged on the door sends an electric signal for indicating the door to be unlocked to a server, and the server determines that the tenant reaches a destination position after receiving the electric signal, and controls building equipment (lighting, air conditioning equipment, a fresh air system and the like) corresponding to a target path to be closed.

In this embodiment, the building equipment corresponding to the target path is controlled by the reserved time, so that the user can enjoy the building equipment on the target path in the reserved time for a long time to provide convenience for the user after setting the reserved time once.

Referring to fig. 7, a building control method according to another exemplary embodiment of the present application is provided. In this embodiment, a description will be given taking as an example a trigger condition that a user reaches a start position of a target route. In this embodiment, the step of controlling the building device according to the trigger condition and the target route specifically includes the following steps S701 to S702:

in step S701, information indicating that the user reaches the start position is received. The user reaching the starting position is the trigger condition.

In step S702, the building device is triggered to operate based on the information indicating that the user arrives at the starting position.

In this embodiment, the starting position may be a position where a security device (e.g., an access control) is located, after the security device detects a user (e.g., after the user swipes an access control card), an electrical signal used for indicating that the user reaches the starting position is sent to the server, and when receiving the electrical signal, the server triggers the building device corresponding to the target path to operate.

In the embodiment, the building equipment can be triggered to work when the information that the user reaches the starting point position is obtained, so that the building equipment can be controlled to work in time.

Referring to fig. 8, a building control method according to another exemplary embodiment of the present application is provided. In this embodiment, the description will be given taking an example in which the building devices are controlled based on the operation mode of the building devices set by the user. In this embodiment, the building control method includes the following steps S801 to S805:

in step S801, a target path is determined.

In step S802, a target route is generated according to the target route.

In step S803, a trigger condition corresponding to the target route is determined.

In step S804, setting information for determining the operation mode of the building device is received from the client.

In step S805, the building device is controlled according to the trigger condition, the target route, and the setting information.

In this embodiment, the user may also set the operating mode of the building device corresponding to the target path according to personal preferences. For example, the personal preferences of the user may include the following:

1. a length of the intended target path, whether an escalator is intended, whether an elevator is intended, whether cooling or heating is intended, whether a fresh air system is intended, whether a sign is intended to be passed (or avoided), or any combination thereof;

2. building equipment lists started on the target path and corresponding operation modes;

3. the turn-on condition or turn-on time of each building device list;

4. a shutdown condition for each building device list;

5. different preferences are not given at the same time; for example, three sets of preferences are required to be set when the preferences are different in the morning, noon and evening.

In this embodiment, a user may set personal preferences through a client and submit the personal preferences to a server through the client, and the server may bind and store user identifiers (such as a house card identifier, an access card identifier, and the like), setting information of a working mode of the building equipment based on the personal preferences, a target path, and a trigger condition, and control the building equipment based on the information.

According to the embodiment, the user can be allowed to set the working mode of the building equipment, so that the building equipment can work according to the setting of the user, and personalized service is provided for the user.

It should be noted that, the above is a control method for building equipment under the condition that only a single user exists at the same time or no conflict exists among users, and for the condition that concurrent user movement exists at the same time, users with high priority can be responded first based on the priority of the users, and for the users with the same priority, the building equipment can be controlled in a competitive or compromise (such as alternate sharing) mode.

The embodiment of the application can have the following beneficial effects: firstly, in the moving process, a user can obtain the customized equipment service of the building system, and the user right does not need to be verified for many times (for example, card swiping) so that the user experience is improved. Second, the building system does not need to turn on all devices, only turns on devices on a certain path when needed, especially in situations where it is not needed, such as at night. And when the user reaches the destination or the time exceeds the preset reserved time, the building equipment corresponding to the target path is closed, so that the energy-saving effect is greater. Thirdly, the user can be guided to quickly reach the destination through the customized equipment service of the building system, and particularly, direction indication can be given to the user when only the lighting equipment on the target path is turned on at the intersection of the passage. Fourthly, a large number of sensors do not need to be installed to assist in implementation, and cost is saved.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the scope of protection of the present application.

Claims (9)

1. A building control method is applied to a server, and comprises the following steps:

determining a target path; the target path comprises a start location, an end location, and at least one channel connecting the start location and the end location in the building;

generating a target route according to the target path; the target route is a set comprising at least one-dimensional line segment, the at least one-dimensional line segment is connected end to form the target route, the one-dimensional line segment is used for identifying the channel, the line segment carries information of building equipment corresponding to the channel, the building equipment comprises any combination of lighting equipment, air conditioning equipment, a fresh air system and security equipment, and the channel which can be identified by the one-dimensional line segment has the following properties: 1) one or a section of channel has only one starting point and one end point; 2) the starting point and the end point of the channel can be interchanged unless the channel is in one-way traffic; 3) if the two channels need to be connected, the two channels can only pass through the starting point and the end point; 4) the starting position and the end position of the user must be on a certain channel; 5) if the starting point position and the end point position of the user are not at the starting point or the end point of a certain channel and are far away from the starting point and the end point of the channel, the channel can be divided into 2 channels; 6) the different floors comprise the steps and/or the elevators, each elevator/step can also be represented by one-dimensional line segment, length and other characteristics, and the length characteristics are determined according to the characteristics of the elevators/steps and have a relation with the moving direction of a user; 7) the standard for distinguishing different channels is not the shape, but comprises a fork, a step, an elevator and an entrance guard;

determining a trigger condition corresponding to the target route;

and controlling the building equipment according to the triggering condition and the target route.

2. The building control method of claim 1, wherein the determining a target path comprises:

sending the two-dimensional channel map of the building to a client;

receiving a first path from the client determined based on the two-dimensional channel map;

determining the target path based on the first path.

3. The building control method as claimed in claim 2, wherein after said receiving the first path determined based on the two-dimensional pathway map, further comprising:

sending at least one second path recommended based on the first path to the client;

the determining the target path based on the first path includes:

receiving a third path from the client based on the first path and the at least one second path being selected;

determining the third path as the target path.

4. The building control method as claimed in claim 2, wherein after said receiving the first path determined based on the two-dimensional pathway map, further comprising:

sending an inquiry message whether to return according to the original path of the first path or not;

receiving a response message based on the query message;

if the response message is returned according to the original path of the first path, a fourth path is obtained based on the response message and the first path; wherein a starting position of the fourth path is an end position of the first path, and the end position of the fourth path is a starting position of the first path;

the determining the target path based on the first path includes:

determining both the first path and the fourth path as the target path.

5. The building control method as claimed in claim 1, wherein said generating a target route from said target path comprises:

determining a direction of the target path based on the target path; the direction of the target path comprises going upstairs and going downstairs;

determining a one-dimensional line segment for identifying a staircase based on the direction of the target path; the lengths of the one-dimensional line segments for marking the upstairs and downstairs of the same stair are different;

and generating a target route based on the one-dimensional line segments for identifying the stairs.

6. The building control method as claimed in claim 1, wherein said determining a trigger condition for said target route comprises:

receiving a reserved time from a client for triggering the target route;

determining the trigger condition based on the reserved time.

7. A building control method as claimed in claim 6, wherein said controlling the building equipment in accordance with the trigger condition and the target route comprises:

and triggering the building equipment to work when the reserved time is reached.

8. A building control method as claimed in claim 1, wherein said controlling said building equipment in accordance with said trigger condition and said target route comprises:

receiving information indicating that a user arrives at the starting position; the user reaching the starting position is the trigger condition;

triggering the building equipment to work based on the information for indicating the user to reach the starting position.

9. The building control method as claimed in claim 1, wherein before controlling the building equipment according to the trigger condition and the target route, further comprising:

receiving setting information used for determining the working mode of the building equipment from a client;

the controlling the building equipment according to the triggering condition and the target route comprises the following steps:

and controlling the building equipment according to the triggering condition, the target route and the setting information.

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