CN107179696B - House control method and system based on mobile terminal identity verification and location awareness - Google Patents
House control method and system based on mobile terminal identity verification and location awareness Download PDFInfo
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- G05B15/00—Systems controlled by a computer
- G05B15/02—Systems controlled by a computer electric
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- G—PHYSICS
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- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B19/00—Programme-control systems
- G05B19/02—Programme-control systems electric
- G05B19/418—Total factory control, i.e. centrally controlling a plurality of machines, e.g. direct or distributed numerical control [DNC], flexible manufacturing systems [FMS], integrated manufacturing systems [IMS] or computer integrated manufacturing [CIM]
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- G—PHYSICS
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- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B2219/00—Program-control systems
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- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
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Abstract
The invention provides a house control method based on mobile terminal identity authentication and location awareness, which comprises the following steps: a position state obtaining step, namely obtaining the position state of the mobile terminal; a motion state obtaining step for obtaining the motion state of the mobile terminal; a behavior mode identification step, which is used for identifying the behavior mode of the mobile terminal according to the motion state and the position state; and generating a device control command according to the behavior pattern, wherein the device control command comprises a room control command. In addition, the invention also provides a house control system based on the identity verification and the position perception of the mobile terminal. The invention can accurately identify the behavior mode of the user, judge whether the user is going in or out of the room or not and prevent the door from being opened by mistake.
Description
Technical Field
The invention relates to the technical field of house control, in particular to a house control method and a house control system based on mobile terminal identity authentication and location awareness.
Background
In the information age, there is a need for authentication in many places. For example, the access control system of an enterprise, the gate of a library, the door of a hotel, etc., the authentication in the above applications is performed substantially in a certain space range; however, most authentication at present is not automatically triggered by location awareness, and is manually triggered by a user. For example, traditional hotel guest room system, guest obtain an intelligent card after the management of front desk check-in procedure, and the guest relies on the intelligent card to open the door, and the guest inserts the intelligent card into and gets electric switch, and the guest leaves the room, need take off the intelligent card, need hand-carry the intelligent card, still can take place the user and forget the condition of carrying the intelligent card, and sometimes the guest carries both hands and has the inconvenient card of getting of thing, and it is comparatively troublesome to use.
If the automatic identity authentication based on the position sensing can be integrated into the application, and a certain action can be triggered, more convenient experience can be brought to the user, and the system management and the data collection are more rapid and effective.
The prior art, namely an intelligent control system and method based on mobile terminal identity authentication and location awareness, is the closest technology to the invention, but in practical use, the problems of low response speed, even no response at all sometimes exist.
The invention is a system combining software and hardware, the type selection research and development of the hardware also passes through a plurality of versions, from the initial use of 8-bit MCU, along with the subsequent requirement of the system on safety, more encryption and decryption operations are needed, faster response speed is needed, the 8-bit MCU can not meet the performance requirement of the system, and finally the 8-bit MCU is changed into 32-bit MCU. The whole architecture of the system is changed for many times, the intelligent mobile terminal and the remote server in the first generation scheme directly interact with each other and need to rely on the network of the intelligent mobile terminal, and the interaction process has the problems of low response speed, even no response at all and the like, and the reason for the problem is that the current network environment is complicated and changeable due to the environment of the user, and sometimes no network exists; in the second generation scheme, the intelligent mobile terminal firstly carries out local communication with the wireless sensing module in a Bluetooth protocol mode and the like, the wireless sensing module forwards communication contents to the local server, although the response speed is improved in a local communication mode, the communication contents are frequently lost when the wireless sensing module is far away from the local server; in the third generation scheme, a signal processing controller is added, a wireless sensing module is integrated on the signal processing controller, an intelligent mobile terminal is communicated with the wireless sensing module on the signal processing controller in a Bluetooth protocol mode and the like, the signal processing controller is communicated with a local server in a TCP/IP protocol mode and the like, and communication contents are forwarded to the local server; through the improvement of a plurality of schemes, the existing scheme greatly improves the communication quality, ensures the reliability and has high response speed.
However, due to differences between the performances of the smart phones, the situation that the communication with the room control system cannot be responded in time may exist; in addition, in the actual use process, a person may stand at the door of a room to make a call, or walk back and forth due to thinking problems, and these behaviors do not aim at getting in and out of the door, but trigger the door opening mechanism of the room control system, so that the situation of opening the door by mistake occurs.
Disclosure of Invention
Aiming at the defects in the prior art, the invention aims to provide a house control method based on mobile terminal identity authentication and location awareness, which comprises the following steps:
a position state acquisition step: acquiring the position state of the mobile terminal;
a motion state acquisition step: acquiring a motion state of the mobile terminal;
a step of recognizing a behavior pattern: according to the motion state and the position state, determining a behavior mode of the mobile terminal;
a device instruction generating step: generating a device control instruction according to the behavior pattern;
the device control instructions comprise house control instructions.
Preferably, the position state includes entering an identification area, entering an action area, staying in the identification area or staying in the action area, wherein the action area and the identification area are sequentially arranged from the near to the far direction of the equipment area;
the behavior pattern recognition step comprises any one or more of the following steps:
when the mobile terminal enters the identification area, enters the action area, stays in the identification area or stays in the action area and the motion state is that the mobile terminal is close to the induction equipment, the behavior mode is determined to be an access mode;
when the mobile terminal enters the identification area, stays in the identification area or stays in the action area and the motion state is that the mobile terminal shakes, the behavior mode is determined to be an access mode;
when entering the action area and the motion state is that the acceleration direction faces the equipment area, the behavior mode is determined as an access mode;
when entering the action area, the motion state is that the acceleration direction faces the equipment area, and the mobile terminal shakes to determine that the action mode is an access mode;
when entering the action area and the motion state is that the mobile terminal shakes, the behavior mode is determined as an access mode;
when the vehicle enters the identification area and the action area and the motion states are all in the direction of acceleration and do not face the equipment area, the behavior mode is determined to be a passing mode;
when staying in the identification area and there is a reverse acceleration in a state of motion for a duration within the identification area, deeming the behavior pattern to be a pacing pattern;
when the device stays in the action area and reverse acceleration exists in the motion state of duration in the action area, the action mode is determined as a pacing mode;
when the setting time alternately exists: the motion state in the action area is an acceleration direction identification area, and the motion state in the identification area is the acceleration direction action area, and the action mode is determined as a pacing mode;
when the user stays in the identification area or the action area and the motion state is static, the behavior mode is determined to be a stay mode;
and when entering the identification area and the motion state is that the acceleration direction faces away from the equipment area, the behavior mode is determined as the leaving mode.
Preferably, the motion state comprises a temporal motion state and/or a real-time motion state; the behavior pattern comprises an in-and-out pattern, a pass-by pattern, a pacing pattern, a stay pattern, or a leave pattern;
preferably, the device instruction generating step includes any one or more of the following steps:
a step of generating a starting instruction: generating a command for controlling the starting of the equipment according to the access mode;
a hold instruction generating step: generating a command to be held by the control device according to the pass mode, pacing mode, stay mode or leave mode.
Preferably, the room control command can be used for controlling the opening and closing of a door. Preferably, the mobile terminal identity authentication and location awareness based room control method further comprises the following steps:
a first identity verification step: when entering the identification area, the identity of the mobile terminal is verified, and the position state acquisition step or the motion state acquisition step is triggered under the condition that the identity of the mobile terminal passes the verification; or
A second identity authentication step: when the behavior mode is an access mode, the identity of the mobile terminal is verified; if the verification is passed, generating an instruction for controlling the start of the equipment in an equipment instruction generating step; otherwise, an instruction held by the control device is generated in the device instruction generating step.
The invention also provides a house control system based on mobile terminal identity verification and position perception, which comprises:
position state acquisition means: acquiring the position state of the mobile terminal;
motion state acquisition means: acquiring a motion state of the mobile terminal;
behavior pattern recognition means: according to the motion state and the position state, determining a behavior mode of the mobile terminal;
the device instruction generation means: generating a device control instruction according to the behavior pattern;
the device control instructions comprise house control instructions.
Preferably, the position state includes entering an identification area, entering an action area, staying in the identification area or staying in the action area, wherein the action area and the identification area are sequentially arranged from the near to the far direction of the equipment area;
the behavior pattern recognition device is used for executing any one or more of the following steps:
when the mobile terminal enters the identification area, enters the action area, stays in the identification area or stays in the action area and the motion state is that the mobile terminal is close to the induction equipment, the behavior mode is determined to be an access mode;
when the mobile terminal enters the identification area, stays in the identification area or stays in the action area and the motion state is that the mobile terminal shakes, the behavior mode is determined to be an access mode;
when entering the action area and the motion state is that the acceleration direction faces the equipment area, the behavior mode is determined as an access mode;
when entering the action area, the motion state is that the acceleration direction faces the equipment area, and the mobile terminal shakes to determine that the action mode is an access mode;
when entering the action area and the motion state is that the mobile terminal shakes, the behavior mode is determined as an access mode;
when the vehicle enters the identification area and the action area and the motion states are all in the direction of acceleration and do not face the equipment area, the behavior mode is determined to be a passing mode;
when staying in the identification area and there is a reverse acceleration in a state of motion for a duration within the identification area, deeming the behavior pattern to be a pacing pattern;
when the device stays in the action area and reverse acceleration exists in the motion state of duration in the action area, the action mode is determined as a pacing mode;
when the setting time alternately exists: the motion state in the action area is an acceleration direction identification area, and the motion state in the identification area is the acceleration direction action area, and the action mode is determined as a pacing mode;
when the user stays in the identification area or the action area and the motion state is static, the behavior mode is determined to be a stay mode;
and when entering the identification area and the motion state is that the acceleration direction faces away from the equipment area, the behavior mode is determined as the leaving mode.
Preferably, the motion state comprises a temporal motion state and/or a real-time motion state; the behavior pattern comprises an in-and-out pattern, a pass-by pattern, a pacing pattern, a stay pattern, or a leave pattern;
preferably, the device instruction generating means comprises any one or any plurality of the following means:
the start instruction generating device: generating a command for controlling the starting of the equipment according to the access mode;
holding command generating means: generating a command to be held by the control device according to the pass mode, pacing mode, stay mode or leave mode.
Preferably, the room control command can be used for controlling the opening and closing of a door. Preferably, the mobile terminal identity authentication and location awareness based room control system further comprises the following devices:
a first identity verification device: when entering the identification area, the identity of the mobile terminal is verified, and the position state acquisition device or the motion state acquisition device is triggered under the condition that the identity of the mobile terminal passes the verification; or
The second authentication means: when the behavior mode is an access mode, the identity of the mobile terminal is verified; if the verification is passed, generating an instruction for controlling the starting of the equipment in an equipment instruction generating device; otherwise, an instruction held by the control device is generated in the device instruction generating means.
Compared with the prior art, the invention has the following beneficial effects:
1. the behavior mode of the user can be accurately identified, whether the user wants to go in or out of a room is judged, and the door is prevented from being opened by mistake.
2. The user can communicate the intent to access the room to the control system through a variety of behavioral means.
3. Sufficient time is provided for the mobile terminal to respond to the communication of the room control system.
4. The intelligent card does not need to be carried, so that the use and management cost is reduced, and the operation is more convenient. House control
5. The authentication information can be dynamically and rapidly updated and changed.
6. And the door opening operation can be still finished under the condition that the two hands of the user are occupied.
7. If the traditional room control system is deployed, the system can be in seamless connection with the room control system, the implementation is rapid, and the upgrading and reconstruction cost is low.
Drawings
Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:
FIG. 1 is a flow chart of user behavior pattern detection
FIG. 2 is a flow chart of the process of opening the door when the mobile phone approaches the sensing area
FIG. 3 is a flow chart of identity verification
FIG. 4 is a flowchart of the overall system
FIG. 5 is a flow chart of a house control system based on intelligent mobile terminal identity verification and location awareness
Detailed Description
The present invention will be described in detail with reference to specific examples. The following examples will assist those skilled in the art in further understanding the invention, but are not intended to limit the invention in any way. It should be noted that variations and modifications can be made by persons skilled in the art without departing from the spirit of the invention. All falling within the scope of the present invention.
As shown in fig. 4, the overall system implementing the present invention comprises the following modules:
1. mobile terminal
2. Wireless sensor (including Bluetooth sensor, Wifi sensor, ZigBee sensor)
3. Signal processing controller
4. Local server
5. Remote server
6. Traditional house control
The user walks into a hotel door, the mobile terminal activates an APP in the mobile terminal after sensing a wireless sensor, the distance between the user and the door is calculated through a position sensing module in the mobile terminal (if a plurality of sensors are arranged around the door, whether the user is outside or inside the door can also be calculated), and if the distance is within a distance range set by a system, the mobile terminal sends a door opening request to a signal processing controller; the signal processing controller transmits a door opening request to the local server; the local server first verifies the identity of the user as shown in figure 2. If the user identity is legal and has corresponding authority to open the door, a door opening instruction is sent to the signal processing controller; the signal processing controller converts the door opening instruction into an instruction of a room control system to complete automatic door opening. The flow chart is shown in fig. 5.
In the prior art, a mobile terminal directly performs data interaction with a remote server by depending on a network of the mobile terminal, the scheme is influenced by the network environment, and the problems of low response speed and sometimes even no response are caused because of delay or interference of signals in remote transmission; aiming at the problems, the signal processing controller is added, the mobile terminal is directly communicated with the signal processing controller through a Bluetooth protocol or a ZigBee protocol and the like, the communication quality is ensured, the signal processing controller forwards the communication content to the local server, and the local server carries out requests such as identity verification and the like, so that the response speed is improved, and the reliability is ensured.
In the actual use process, a person may be standing near the door to make a call or approach the door, which involves the detection of the behavior pattern of the user; aiming at the problem, the key for solving the problem is to apply an acceleration sensor in the mobile terminal, continuously acquire data of the acceleration sensor in the APP, and judge the behavior state of the user through a certain algorithm.
According to the system, after a guest transacts a check-in procedure, the guest only needs to carry an intelligent mobile terminal, when the guest approaches a room of the guest, the intelligent mobile terminal automatically senses the distance between the guest and a door, if the distance between the guest and the door is within a position range preset by the system, the mobile terminal APP automatically sends an identity verification request to a local server, if the identity verification request passes verification, the local server sends a control instruction to a traditional hotel room control system, the door is automatically opened, lights in the room, an air conditioner and other equipment are automatically powered on, and the air conditioner can set a proper temperature according to the preference of the guest; when a guest leaves a room, the intelligent mobile terminal sends an instruction to a traditional room control system of the hotel, a door is automatically locked, and the room is automatically powered off; in the whole using process, guests do not need to participate, so that the user experience is improved, and the card making management cost of the hotel is saved. However, in practical applications, there may be a case that a guest suddenly wants to return to a room to take an article when the guest just goes out of the room, and at this time, the door may be opened by shaking the mobile terminal or brushing the mobile terminal on the sensing component of the room control system, and the flow is as shown in fig. 1.
Examples of implementation: the system is deployed in a hotel through upgrading and transformation, a corresponding APP is installed on a guest mobile terminal, after a guest transacts a check-in procedure in a foreground, the system updates information for an account of the guest in the background, when the guest approaches a room of the hotel, a room door is automatically opened, and a room lamp and an air conditioner are also automatically opened at the same time; when the guest leaves the room, the room is automatically locked, and the power supply in the room is automatically cut off. In this embodiment, the house control system based on mobile terminal identity authentication and location awareness provided by the present invention includes the following devices:
a position state acquiring device for acquiring the position state of the mobile terminal;
the motion state acquisition device is used for acquiring the motion state of the mobile terminal;
the behavior mode identification device identifies the behavior mode of the mobile terminal according to the motion state and the position state;
and the equipment instruction generating device generates an equipment control instruction according to the behavior pattern.
The position state comprises entering an identification area, entering an action area, staying in the identification area or staying in the action area, wherein the action area and the identification area are sequentially arranged from the equipment area from near to far. The division of the zones is achieved by the arrangement of the sensors. In this embodiment, two sensors are provided, which are respectively denoted as a first sensor and a second sensor, and a range sensed by the first sensor is larger than and includes a range sensed by the second sensor. Identifying an area within the boundary of the first sensor and outside the boundary of the second sensor; the action zone is located within the boundaries of the second sensor; and when the mobile intelligent device is out of the boundary of the first sensor, the mobile intelligent device cannot communicate with the intelligent control system provided by the invention.
The motion state includes a duration motion state and/or a real-time motion state, such as shaking the mobile terminal, extending the mobile terminal in a direction or bringing the mobile terminal close to the sensing device.
And the behavior mode identification device identifies the behavior mode of the mobile terminal according to the motion state and the position state. The behavior mode comprises an in-and-out mode, a pass-by mode, a pacing mode, a stay mode or a leave mode, and the specific judgment conditions are as follows: when the mobile terminal enters the identification area, enters the action area, stays in the identification area or stays in the action area and the motion state is that the mobile terminal is close to the induction equipment, the behavior mode is determined to be an access mode; when the mobile terminal enters the identification area, stays in the identification area or stays in the action area and the motion state is that the mobile terminal shakes, the behavior mode is determined to be an access mode; when entering the action area and the motion state is that the acceleration direction faces the equipment area, the behavior mode is determined as an access mode; when entering the action area, the motion state is that the acceleration direction faces the equipment area, and the mobile terminal shakes to determine that the action mode is an access mode; when entering the action area and the motion state is that the mobile terminal shakes, the behavior mode is determined as an access mode; when the vehicle enters the identification area and the action area and the motion states are all in the direction of acceleration and do not face the equipment area, the behavior mode is determined to be a passing mode; when staying in the identification area and there is a reverse acceleration in a state of motion for a duration within the identification area, deeming the behavior pattern to be a pacing pattern; when the device stays in the action area and reverse acceleration exists in the motion state of duration in the action area, the action mode is determined as a pacing mode; when the setting time alternately exists: the motion state in the action area is an acceleration direction identification area, and the motion state in the identification area is the acceleration direction action area, and the action mode is determined as a pacing mode; when the user stays in the identification area or the action area and the motion state is static, the behavior mode is determined to be a stay mode; and when entering the identification area and the motion state is that the acceleration direction faces away from the equipment area, the behavior mode is determined as the leaving mode.
The instruction generating device can generate a corresponding device control instruction according to the judged behavior pattern, such as starting or keeping motionless. In this embodiment, the door to be controlled can be opened in the access mode and closed in the other action modes.
Because many places relate to the requirement of identity authentication at present, the invention can automatically initiate an identity authentication request based on position sensing, and then automatically send a control instruction to a room control system connected with the system according to the acquired position information and identity information, and can acquire the feedback of the room control system. House control
In the embodiment, when the mobile terminal enters the identification area, the identity of the mobile terminal is verified, and the position state acquisition device or the motion state acquisition device is continuously triggered after the verification is passed. The scheme has the advantages that for some mobile terminals with poor performance and low corresponding speed, enough time is provided for starting the built-in program and communicating and verifying with the intelligent control system related to the invention.
Preferably, after the behavior mode is recognized as the access mode by the behavior mode recognizing device, the identity of the mobile terminal is verified, and if the verification is passed, the device instruction generating device generates an instruction for controlling the start of the device; otherwise, an instruction held by the control device is generated in the device instruction generating means. The scheme has the advantage of avoiding redundant identity authentication process of the mobile terminal in the non-access mode, and the flow chart is shown in fig. 3.
The house control system based on the mobile terminal identity authentication and the location awareness provided by the invention is explained above, and correspondingly, the invention also provides a house control method based on the mobile terminal identity authentication and the location awareness.
The house control method based on mobile terminal identity authentication and location awareness provided by the invention comprises the following steps: a position state acquisition step: acquiring the position state of the mobile terminal; a motion state acquisition step: acquiring a motion state of the mobile terminal; a step of recognizing a behavior pattern: according to the motion state and the position state, determining a behavior mode of the mobile terminal; a device instruction generating step: and generating a device control instruction according to the behavior pattern.
The position state comprises entering an identification area, entering an action area, staying in the identification area or staying in the action area, wherein the action area and the identification area are sequentially arranged from the near to the far direction of the equipment area; the behavior pattern recognition step comprises any one or more of the following steps: when the mobile terminal enters the identification area, enters the action area, stays in the identification area or stays in the action area and the motion state is that the mobile terminal is close to the induction equipment, the behavior mode is determined to be an access mode; when the mobile terminal enters the identification area, stays in the identification area or stays in the action area and the motion state is that the mobile terminal shakes, the behavior mode is determined to be an access mode; when entering the action area and the motion state is that the acceleration direction faces the equipment area, the behavior mode is determined as an access mode; when entering the action area, the motion state is that the acceleration direction faces the equipment area, and the mobile terminal shakes to determine that the action mode is an access mode; when entering the action area and the motion state is that the mobile terminal shakes, the behavior mode is determined as an access mode; when the vehicle enters the identification area and the action area and the motion states are all in the direction of acceleration and do not face the equipment area, the behavior mode is determined to be a passing mode; when staying in the identification area and there is a reverse acceleration in a state of motion for a duration within the identification area, deeming the behavior pattern to be a pacing pattern; when the device stays in the action area and reverse acceleration exists in the motion state of duration in the action area, the action mode is determined as a pacing mode; when the setting time alternately exists: the motion state in the action area is an acceleration direction identification area, and the motion state in the identification area is the acceleration direction action area, and the action mode is determined as a pacing mode; when the user stays in the identification area or the action area and the motion state is static, the behavior mode is determined to be a stay mode; and when entering the identification area and the motion state is that the acceleration direction faces away from the equipment area, the behavior mode is determined as the leaving mode.
The motion state comprises a duration motion state and/or a real-time motion state; the behavior pattern includes an in-and-out pattern, a pass-by pattern, a pacing pattern, a stay pattern, or a leave pattern.
The device instruction generating step comprises any one or more of the following steps: a step of generating a starting instruction: generating a command for controlling the starting of the equipment according to the access mode; a hold instruction generating step: generating a command to be held by the control device according to the pass mode, pacing mode, stay mode or leave mode.
The room control instruction can be used for controlling the opening and closing of the room door.
The house control method based on the mobile terminal identity authentication and the position perception further comprises the following steps: a first identity verification step: when entering the identification area, the identity of the mobile terminal is verified, and the position state acquisition step or the motion state acquisition step is triggered under the condition that the identity of the mobile terminal passes the verification; or the second identity authentication step: when the behavior mode is an access mode, the identity of the mobile terminal is verified; if the verification is passed, generating an instruction for controlling the start of the equipment in an equipment instruction generating step; otherwise, an instruction held by the control device is generated in the device instruction generating step.
Those skilled in the art will appreciate that, in addition to implementing the system and its various devices, modules, units provided by the present invention as pure computer readable program code, the system and its various devices, modules, units provided by the present invention can be fully implemented by logically programming method steps in the form of logic gates, switches, application specific integrated circuits, programmable logic controllers, embedded microcontrollers and the like. Therefore, the system and various devices, modules and units thereof provided by the invention can be regarded as a hardware component, and the devices, modules and units included in the system for realizing various functions can also be regarded as structures in the hardware component; means, modules, units for performing the various functions may also be regarded as structures within both software modules and hardware components for performing the method.
The foregoing description of specific embodiments of the present invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes and modifications may be made by one skilled in the art within the scope of the appended claims without departing from the spirit of the invention.
Claims (7)
1. A house control system based on mobile terminal identity authentication and location awareness is characterized by comprising:
position state acquisition means: acquiring the position state of the mobile terminal; the position state comprises entering an identification area, entering an action area, staying in the identification area or staying in the action area, wherein the action area and the identification area are sequentially arranged from the near to the far direction of the equipment area;
motion state acquisition means: acquiring a motion state of the mobile terminal; the motion state comprises a duration motion state and/or a real-time motion state;
behavior pattern recognition means: according to the motion state and the position state, determining a behavior mode of the mobile terminal;
the device instruction generation means: generating a device control instruction according to the behavior pattern;
the equipment control instruction comprises a room control instruction;
the behavior pattern recognition device is used for executing any one or more of the following steps:
when the mobile terminal enters the identification area, enters the action area, stays in the identification area or stays in the action area and the motion state is that the mobile terminal is close to the induction equipment, the behavior mode is determined to be an access mode;
when the mobile terminal enters the identification area, stays in the identification area or stays in the action area and the motion state is that the mobile terminal shakes, the behavior mode is determined to be an access mode;
when entering the action area and the motion state is that the acceleration direction faces the equipment area, the behavior mode is determined as an access mode;
when entering the action area, the motion state is that the acceleration direction faces the equipment area, and the mobile terminal shakes to determine that the action mode is an access mode;
when entering the action area and the motion state is that the mobile terminal shakes, the behavior mode is determined as an access mode;
when the vehicle enters the identification area and the action area and the motion states are all in the direction of acceleration and do not face the equipment area, the behavior mode is determined to be a passing mode;
when staying in the identification area and there is a reverse acceleration in a state of motion for a duration within the identification area, deeming the behavior pattern to be a pacing pattern;
when the device stays in the action area and reverse acceleration exists in the motion state of duration in the action area, the action mode is determined as a pacing mode;
when the setting time alternately exists: the motion state in the action area is an acceleration direction identification area, and the motion state in the identification area is the acceleration direction action area, and the action mode is determined as a pacing mode;
when the user stays in the identification area or the action area and the motion state is static, the behavior mode is determined to be a stay mode;
when entering the identification area and the motion state is that the acceleration direction faces away from the equipment area, the behavior mode is determined to be a leaving mode;
the behavior pattern comprises an in-and-out pattern, a pass-by pattern, a pacing pattern, a stay pattern, or a leave pattern;
the device instruction generating device comprises any one or more of the following devices:
the start instruction generating device: generating a command for controlling the starting of the equipment according to the access mode;
holding command generating means: generating a command to be held by a control device according to the pass mode, pacing mode, stay mode or leave mode;
the device also comprises the following devices:
a first identity verification device: when entering the identification area, the identity of the mobile terminal is verified, and the position state acquisition device or the motion state acquisition device is triggered under the condition that the identity of the mobile terminal passes the verification; or
The second authentication means: when the behavior mode is an access mode, the identity of the mobile terminal is verified; if the verification is passed, generating an instruction for controlling the starting of the equipment in an equipment instruction generating device; otherwise, generating an instruction kept by the control equipment in the equipment instruction generating device;
the user behavior mode is detected by adopting an acceleration sensor in the mobile terminal, and data of the acceleration sensor is continuously acquired in the APP so as to judge the behavior state of the user;
the system can automatically initiate an identity verification request based on position sensing, automatically send a control instruction to a room control system connected with the system according to the acquired position information and identity information, and can acquire feedback of the room control system.
2. The system according to claim 1, wherein the room control command can be used to control the opening and closing of a door.
3. A room control method based on mobile terminal identity authentication and location awareness, wherein the room control system based on mobile terminal identity authentication and location awareness according to any one of claims 1 to 2 is adopted, and the method comprises:
a position state acquisition step: acquiring the position state of the mobile terminal;
a motion state acquisition step: acquiring a motion state of the mobile terminal;
a step of recognizing a behavior pattern: according to the motion state and the position state, determining a behavior mode of the mobile terminal;
a device instruction generating step: generating a device control instruction according to the behavior pattern;
the device control instructions comprise house control instructions.
4. The house control method based on mobile terminal identity authentication and location awareness according to claim 3, wherein the location state comprises entering an identification area, entering an action area, staying in the identification area or staying in the action area, wherein the action area and the identification area are sequentially arranged from the near to the far direction of the equipment area;
the behavior pattern recognition step comprises any one or more of the following steps:
when the mobile terminal enters the identification area, enters the action area, stays in the identification area or stays in the action area and the motion state is that the mobile terminal is close to the induction equipment, the behavior mode is determined to be an access mode;
when the mobile terminal enters the identification area, stays in the identification area or stays in the action area and the motion state is that the mobile terminal shakes, the behavior mode is determined to be an access mode; when entering the action area and the motion state is that the acceleration direction faces the equipment area, the behavior mode is determined as an access mode;
when entering the action area, the motion state is that the acceleration direction faces the equipment area, and the mobile terminal shakes to determine that the action mode is an access mode;
when entering the action area and the motion state is that the mobile terminal shakes, the behavior mode is determined as an access mode;
when the vehicle enters the identification area and the action area and the motion states are all in the direction of acceleration and do not face the equipment area, the behavior mode is determined to be a passing mode;
when staying in the identification area and there is a reverse acceleration in a state of motion for a duration within the identification area, deeming the behavior pattern to be a pacing pattern;
when the device stays in the action area and reverse acceleration exists in the motion state of duration in the action area, the action mode is determined as a pacing mode;
when the setting time alternately exists: the motion state in the action area is an acceleration direction identification area, and the motion state in the identification area is the acceleration direction action area, and the action mode is determined as a pacing mode;
when the user stays in the identification area or the action area and the motion state is static, the behavior mode is determined to be a stay mode;
and when entering the identification area and the motion state is that the acceleration direction faces away from the equipment area, the behavior mode is determined as the leaving mode.
5. The mobile terminal identity authentication and location awareness based room control method according to claim 3, wherein the motion state comprises a duration motion state and/or a real-time motion state; the behavior pattern comprises an in-and-out pattern, a pass-by pattern, a pacing pattern, a stay pattern, or a leave pattern;
the device instruction generating step comprises any one or more of the following steps:
a step of generating a starting instruction: generating a command for controlling the starting of the equipment according to the access mode;
a hold instruction generating step: generating a command to be held by the control device according to the pass mode, pacing mode, stay mode or leave mode.
6. The room control method based on mobile terminal identity authentication and location awareness as claimed in claim 3, wherein the room control command can be used to control the opening and closing of a door.
7. The room control method based on mobile terminal identity authentication and location awareness according to claim 5, further comprising the steps of:
a first identity verification step: when entering the identification area, the identity of the mobile terminal is verified, and the position state acquisition step or the motion state acquisition step is triggered under the condition that the identity of the mobile terminal passes the verification; or
A second identity authentication step: when the behavior mode is an access mode, the identity of the mobile terminal is verified; if the verification is passed, generating an instruction for controlling the start of the equipment in an equipment instruction generating step; otherwise, an instruction held by the control device is generated in the device instruction generating step.
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CN109240101B (en) * | 2018-09-21 | 2022-04-15 | 深圳市华拓科技有限公司 | Equipment remote control method and control system |
CN110706129A (en) * | 2019-10-08 | 2020-01-17 | 广西智数科技有限公司 | Hotel management method and device |
Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103617659A (en) * | 2013-11-01 | 2014-03-05 | 南京物联传感技术有限公司 | Wireless unlocking method |
CN103821413A (en) * | 2014-03-11 | 2014-05-28 | 重庆金瓯科技发展有限责任公司 | Bluetooth electronic automatic lock system and switching method thereof |
CN104483937A (en) * | 2014-12-03 | 2015-04-01 | 朗曦科技(上海)有限公司 | Hotel intelligent room control system and method |
CN104599354A (en) * | 2014-12-03 | 2015-05-06 | 朗曦科技(上海)有限公司 | Intelligence control system based on mobile terminal identity verification and position perception and method |
CN106097497A (en) * | 2016-06-07 | 2016-11-09 | 杭州虹云网络科技有限公司 | Based on the smart lock of GPS and Bluetooth control and realize the method that safety automation opens the door |
CN106157407A (en) * | 2016-07-05 | 2016-11-23 | 孔尧 | Intelligent entrance guard control method and device |
CN106204817A (en) * | 2016-06-24 | 2016-12-07 | 福建求实智能股份有限公司 | A kind of control method of control of bluetooth access |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
NZ706030A (en) * | 2012-08-16 | 2016-01-29 | Schlage Lock Co Llc | Wireless reader system |
-
2017
- 2017-04-17 CN CN201710249890.3A patent/CN107179696B/en active Active
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103617659A (en) * | 2013-11-01 | 2014-03-05 | 南京物联传感技术有限公司 | Wireless unlocking method |
CN103821413A (en) * | 2014-03-11 | 2014-05-28 | 重庆金瓯科技发展有限责任公司 | Bluetooth electronic automatic lock system and switching method thereof |
CN104483937A (en) * | 2014-12-03 | 2015-04-01 | 朗曦科技(上海)有限公司 | Hotel intelligent room control system and method |
CN104599354A (en) * | 2014-12-03 | 2015-05-06 | 朗曦科技(上海)有限公司 | Intelligence control system based on mobile terminal identity verification and position perception and method |
CN106097497A (en) * | 2016-06-07 | 2016-11-09 | 杭州虹云网络科技有限公司 | Based on the smart lock of GPS and Bluetooth control and realize the method that safety automation opens the door |
CN106204817A (en) * | 2016-06-24 | 2016-12-07 | 福建求实智能股份有限公司 | A kind of control method of control of bluetooth access |
CN106157407A (en) * | 2016-07-05 | 2016-11-23 | 孔尧 | Intelligent entrance guard control method and device |
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