Management method of smart metering switch and related device
By using intelligent measurement and switch management methods, based on employee information and facial image analysis, the control of lighting units and work equipment is optimized, solving the problem of high energy consumption and management challenges for enterprises under flexible working hours, and achieving energy saving and efficient management.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- YIFA HLDG GRP
- Filing Date
- 2023-05-16
- Publication Date
- 2026-07-03
AI Technical Summary
After implementing flexible working hours, companies experience higher electricity consumption, higher management costs, and difficulty in effectively monitoring employee attendance.
By acquiring employee information and entrance identification, the system determines the target movement path, activates only the lighting units associated with the workstation location, detects the on/off status of work equipment, optimizes the on/off control of the lighting units, and combines facial image analysis to determine the employee's working status, thereby achieving intelligent energy saving and management.
It effectively saves energy, simplifies employee attendance management, improves management efficiency, reduces unnecessary lighting switch operations, and promptly identifies shirking behavior.
Smart Images

Figure CN116614923B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of equipment control, and in particular to a management method and related equipment for an intelligent measuring switch. Background Technology
[0002] Flexible working hours are a method where employees design their daily or weekly work hours to be flexible based on their individual characteristics. It's a form of job redesign, aiming to better adapt work schedules to individual employee needs, work habits, and preferences. Giving employees more autonomy can motivate them and reduce tardiness, absenteeism, and personal time spent at work. However, it increases management complexity for organizations. For example, in a 4-hour flexible working hour, employees who start at 7 am can leave at 4 pm, while those who start at 11 am need to leave at 8 pm. This results in a shorter total working time for all employees, while occupying office resources for a full 13 hours from 7 am to 8 pm, significantly increasing operating costs. Summary of the Invention
[0003] In view of the above problems, the present invention provides a management method and related equipment for intelligent measuring switches, the main purpose of which is to solve the problem of high energy consumption and high experience costs in current enterprise methods.
[0004] To address at least one of the aforementioned technical problems, in a first aspect, the present invention provides a management method for an intelligent measuring switch, the method comprising:
[0005] Upon receiving an employee's first entry request to the work area within the same work cycle, the employee's employee information and the entry identifier that received the first entry request are obtained based on the first entry request.
[0006] The target movement path is determined based on the employee's workstation location and the entrance sign, wherein the workstation location is obtained based on the employee's information query.
[0007] The lighting unit associated with the target movement path is turned on, and the on / off status of the work equipment associated with the workstation location is detected. If the work equipment is in the start state, only the lighting unit associated with the workstation location among the lighting units turned on this time is kept on. The work area includes multiple lighting units distributed in an array.
[0008] Optional, also includes:
[0009] When the lighting unit associated with the target movement path is turned on, monitor the on / off status of the switch corresponding to the lighting unit associated with the workstation position within a preset range of the workstation position.
[0010] When the switch is switched, only the lighting unit associated with the workstation position among the lighting units that are currently turned on remains on, wherein the work area includes multiple lighting units distributed in an array.
[0011] Optionally, determining the target movement path based on the employee's workstation location and the entrance marker includes:
[0012] Multiple movement paths are planned based on the employee's workstation location and the entrance sign.
[0013] The path with the most lighting units when the working equipment is in the on state and the fewest lighting units when the working equipment is in the off state is selected as the target path.
[0014] Optional, also includes:
[0015] With the work equipment in the activated state, facial image information of the employee is acquired;
[0016] The employee's work status is determined based on the brightness changes in the facial image information.
[0017] Optionally, determining the employee's work status based on the brightness change of the facial image information includes:
[0018] Calculate the frequency of change in the brightness of the employee's face as indicated by the facial image information within a preset period;
[0019] If the frequency of change is greater than a preset frequency, it is predicted that the employee is in a state of slacking off.
[0020] Optional, also includes:
[0021] If it is predicted that the employee is in a state of shirking work, the employee's personal phone number is dialed and image information of the employee's corresponding workstation location is continuously collected.
[0022] Optional, also includes:
[0023] If it is predicted that the employee is in a state of idling, the lighting unit and all display devices associated with the employee's corresponding workstation are turned off, and the facial brightness of the employee is collected within a preset time after the lighting unit and all display devices associated with the employee's corresponding workstation are turned off.
[0024] Secondly, embodiments of the present invention also provide a management device for an intelligent measurement switch, comprising:
[0025] The acquisition unit is used to acquire, based on the first entry request of an employee into the work area during the same work cycle, the employee information of the employee and the entry identifier that received the first entry request.
[0026] The determining unit is used to determine the target movement path based on the employee's workstation location and the entrance identifier, wherein the workstation location is obtained based on the employee's information query;
[0027] The control unit is used to turn on the lighting units associated with the target movement path and detect the on / off status of the work equipment associated with the workstation location. When the work equipment is in the start-up state, only the lighting units associated with the workstation location among the lighting units that are turned on this time are kept on. The work area includes multiple lighting units distributed in an array.
[0028] To achieve the above objectives, according to a third aspect of the present invention, a computer-readable storage medium is provided, the computer-readable storage medium including a stored program, wherein the above-described intelligent measurement switch management method is implemented when the program is executed by a processor.
[0029] To achieve the above objectives, according to a fourth aspect of the present invention, an electronic device is provided, including at least one processor and at least one memory connected to the processor; wherein the processor is configured to call program instructions in the memory to execute the above-described intelligent measurement switch management method.
[0030] By employing the above technical solution, the intelligent measurement switch management method and related equipment provided by this invention, upon receiving an employee's first entry request to the work area within the same work cycle, acquires the employee's information and the entrance identifier of the first entry request based on the first entry request; determines a target movement path based on the employee's workstation location and the entrance identifier, the workstation location being obtained by querying the employee information; activates the lighting units associated with the target movement path and detects the on / off status of the work equipment associated with the workstation location; if the work equipment is in the on state, only the lighting units associated with the workstation location are kept on during the current activation, wherein the work area includes multiple lighting units distributed in an array. Based on the entrance location of the user's initial work area entry request and the employee information present in the request, the system can automatically obtain the user's workstation location and generate a movement path between the workstation location and the entrance location. This allows the lighting units associated with the target movement path to be activated so that the employee can reach their workstation, while avoiding the employee turning on all the lighting units in all areas they need to pass through, or repeatedly controlling numerous switches to turn on and off to attempt to activate the lighting corresponding to the relevant movement areas and workstation locations. Furthermore, by simultaneously activating the lighting units associated with the target movement path and detecting the on / off status of the work equipment associated with the workstation location, and ensuring that only the lighting units associated with the workstation location are activated during this activation, unnecessary energy consumption can be further reduced. Moreover, this lighting unit on / off control method not only intelligently saves energy but also allows management to quickly and intuitively grasp the attendance status of personnel in different areas and workstations, facilitating timely understanding of employee conditions.
[0031] Correspondingly, the management device, electronic system, and computer-readable storage medium for the intelligent measurement switch provided in the embodiments of the present invention also have the above-mentioned technical effects.
[0032] The above description is merely an overview of the technical solution of the present invention. In order to better understand the technical means of the present invention and to implement it in accordance with the contents of the specification, and in order to make the above and other objects, features and advantages of the present invention more apparent and understandable, specific embodiments of the present invention are described below. Attached Figure Description
[0033] Various other advantages and benefits will become apparent to those skilled in the art upon reading the following detailed description of preferred embodiments. The accompanying drawings are for illustrative purposes only and are not intended to limit the invention. Furthermore, the same reference numerals denote the same parts throughout the drawings. In the drawings:
[0034] Figure 1A flowchart illustrating a management method for an intelligent measuring switch according to an embodiment of the present invention is shown.
[0035] Figure 2 This diagram illustrates the composition of a management device for an intelligent measuring switch according to an embodiment of the present invention.
[0036] Figure 3 This diagram illustrates the composition of a management electronic device for an intelligent measurement switch according to an embodiment of the present invention. Detailed Implementation
[0037] Exemplary embodiments of the invention will now be described in more detail with reference to the accompanying drawings. While exemplary embodiments of the invention are shown in the drawings, it should be understood that the invention may be implemented in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this invention will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.
[0038] To address the problems of high energy consumption and high experience-based methods currently used in enterprises, this invention provides a management method for intelligent measurement switches, such as... Figure 1 As shown, the method includes:
[0039] S101. Upon receiving an employee's first entry request to the work area within the same work cycle, obtain the employee's employee information and the entry identifier that received the first entry request based on the first entry request.
[0040] For example, the aforementioned same work cycle can be a workday, calculated from midnight of each day to midnight of the next day. The aforementioned work area can have a large number of workstations, and can include a combination of multiple independent work areas, or it can be a single, unified work area. The aforementioned work area typically includes multiple entrances.
[0041] S102. Determine the target movement path based on the employee's workstation location and the entrance identifier, wherein the workstation location is obtained based on the employee information query.
[0042] S103. Turn on the lighting unit associated with the target movement path and detect the on / off status of the work equipment associated with the work station position. If the work equipment is in the start state, only keep the lighting unit associated with the work station position in the lighting unit that is turned on this time. The work area includes multiple lighting units distributed in an array.
[0043] For example, the aforementioned work equipment may include office electronic devices such as computers placed in the workstation or large work machines such as operating equipment in the product production process in a factory.
[0044] By employing the above technical solution, the intelligent measurement switch management method provided by this invention, upon receiving an employee's first entry request to the work area within the same work cycle, acquires the employee's information and the entrance identifier that received the first entry request based on the first entry request; determines a target movement path based on the employee's workstation location and the entrance identifier, the workstation location being obtained by querying the employee information; activates the lighting units associated with the target movement path and detects the on / off status of the work equipment associated with the workstation location; if the work equipment is in the on state, only the lighting units associated with the workstation location are kept on during the current activation, wherein the work area includes multiple lighting units distributed in an array. Based on the entrance location of the user's initial work area entry request and the employee information present in the request, the method automatically acquires the user's workstation location and generates a movement path between the workstation location and the entrance location. This allows the lighting units associated with the target movement path to be activated so that the employee can reach their workstation, while avoiding the employee turning on all the lighting units in all areas they need to pass through, or repeatedly controlling a large number of switches to try to activate the lighting corresponding to the relevant movement areas and workstation locations. Furthermore, by simultaneously activating the lighting units associated with the target movement path and detecting the on / off status of the work equipment associated with the workstation location, and ensuring that only the lighting units associated with the workstation location are activated during this activation, unnecessary energy consumption can be further reduced. Moreover, this lighting unit on / off control method not only intelligently saves energy but also allows management to quickly and intuitively grasp the attendance status of personnel in different areas and workstations, facilitating timely understanding of employee conditions.
[0045] In one embodiment, it further includes:
[0046] When the lighting unit associated with the target movement path is turned on, monitor the on / off status of the switch corresponding to the lighting unit associated with the workstation position within a preset range of the workstation position.
[0047] When the switch is switched, only the lighting unit associated with the workstation position among the lighting units that are currently turned on remains on, wherein the work area includes multiple lighting units distributed in an array.
[0048] For example, a centralized control device for lighting units is typically installed at the entrance / exit, and individual switches for controlling nearby lighting units are also installed nearby. Therefore, the switching status of the switches corresponding to the lighting units associated with the workstation location within a preset range of the workstation location can be used to infer whether an employee at that workstation location has arrived. When the switch status is changed, only the lighting units associated with the workstation location remain active. Since the work area includes multiple lighting units arranged in an array, unnecessary energy consumption can be further reduced.
[0049] In one embodiment, determining the target movement path based on the employee's workstation location and the entrance marker includes:
[0050] Multiple movement paths are planned based on the employee's workstation location and the entrance sign.
[0051] The path with the most lighting units when the working equipment is in the on state and the fewest lighting units when the working equipment is in the off state is selected as the target path.
[0052] For example, the target movement path can be selected from the plurality of movement paths that has the most lighting units when the work equipment is on and the fewest lighting units when the work equipment is off. Such a target movement path should minimize the number of lighting units that the employee needs to switch back and forth, which is most conducive to saving power and effectively reducing the number of switching operations.
[0053] In one embodiment, the above method further includes:
[0054] With the work equipment in the activated state, facial image information of the employee is acquired;
[0055] The employee's work status is determined based on the brightness changes in the facial image information.
[0056] For example, when employees watch videos on their phones during work hours, they usually place the phones in locations out of sight of surveillance cameras. However, since employees need to appear engaged at their workstations, monitoring alone cannot determine whether an employee is slacking off. By acquiring facial image information and determining the employee's work status based on changes in the brightness of that facial image, it's possible to preliminarily determine whether the employee is watching a video or a document. The difference in lighting reflected on the user's face can help determine the employee's current work status to some extent. This further facilitates employee management and optimizes company costs.
[0057] In one embodiment, determining the employee's work status based on the brightness change of the facial image information includes:
[0058] Calculate the frequency of change in the brightness of the employee's face as indicated by the facial image information within a preset period;
[0059] If the frequency of change is greater than a preset frequency, it is predicted that the employee is in a state of slacking off.
[0060] For example, the frequency of changes in an employee's facial brightness can be used to determine whether an employee is viewing a document page or a video. Specifically, if the frequency of change is greater than a preset frequency, it can be predicted that the employee is watching a video.
[0061] In one embodiment, the above method further includes:
[0062] If it is predicted that the employee is in a state of shirking work, the employee's personal phone number is dialed and image information of the employee's corresponding workstation location is continuously collected.
[0063] For example, by analyzing surveillance images, the emission direction of light and shadow with a frequency greater than a preset frequency can be initially determined. Then, by calling the employee's personal phone, it can be monitored whether the employee takes out their phone from the pre-stored emission direction, which can further determine whether the employee is slacking off. It should be noted that companies can generally monitor the usage status of work equipment through programs, such as accessed addresses, but cannot monitor employees' own mobile devices such as mobile phones. The above method can effectively determine whether employees are using personal electronic devices to slack off.
[0064] In one embodiment, the above method further includes:
[0065] If it is predicted that the employee is in a state of idling, the lighting unit and all display devices associated with the employee's corresponding workstation are turned off, and the facial brightness of the employee is collected within a preset time after the lighting unit and all display devices associated with the employee's corresponding workstation are turned off.
[0066] For example, if it is predicted that an employee is idling, the employee can be quickly located by turning off the lighting units and all display devices associated with the employee's workstation, allowing light from display devices to still shine into or out of the employee's face or workstation. This can further determine whether the employee is idling using personal electronic devices.
[0067] Furthermore, as a response to the above Figure 1 In addition to the implementation of the method shown, this embodiment of the invention also provides a management device for an intelligent measurement switch, used for the above-mentioned... Figure 1The method shown is implemented accordingly. This device embodiment corresponds to the foregoing method embodiment. For ease of reading, this device embodiment will not repeat the details of the foregoing method embodiment, but it should be clear that the device in this embodiment can implement all the contents of the foregoing method embodiment. Figure 2 As shown, the device includes: an acquisition unit 21, a determination unit 22, and a control unit 23, wherein...
[0068] The acquisition unit 21 is used to acquire employee information and entry identifier of the employee who received the first entry request based on the first entry request when an employee enters the work area for the first time in the same work cycle.
[0069] The determining unit 22 is used to determine the target movement path based on the employee's workstation location and the entrance identifier, wherein the workstation location is obtained based on the employee information query;
[0070] Control unit 23 is used to turn on the lighting unit associated with the target movement path and detect the status of the working equipment associated with the work station position. When the working equipment is in the start state, only the lighting unit associated with the work station position among the lighting units turned on this time is kept in the on state. The working area includes multiple lighting units distributed in an array.
[0071] By employing the above technical solution, the intelligent measurement switch management device provided by this invention, upon receiving an employee's first entry request to the work area within the same work cycle, acquires the employee's information and the entrance identifier of the first entry request based on the first entry request; determines a target movement path based on the employee's workstation location and the entrance identifier, the workstation location being obtained by querying the employee information; activates the lighting units associated with the target movement path and detects the on / off status of the work equipment associated with the workstation location; if the work equipment is in the on state, only the lighting units associated with the workstation location are kept on during the current activation, wherein the work area includes multiple lighting units distributed in an array. Based on the entrance location of the user's initial work area entry request and the employee information present in the request, the device can automatically obtain the user's workstation location and generate a movement path between the workstation location and the entrance location. This allows the lighting units associated with the target movement path to be activated so that the employee can reach their workstation, while avoiding the employee turning on all the lighting units in all areas they need to pass through, or repeatedly controlling numerous switches to turn on and off to attempt to activate the lighting corresponding to the relevant movement areas and workstation locations. Furthermore, by simultaneously activating the lighting units associated with the target movement path and detecting the on / off status of the work equipment associated with the workstation location, and ensuring that only the lighting units associated with the workstation location are activated during this activation, unnecessary energy consumption can be further reduced. Moreover, this lighting unit on / off control method not only intelligently saves energy but also allows management to quickly and intuitively grasp the attendance status of personnel in different areas and workstations, facilitating timely understanding of employee conditions.
[0072] The processor contains a kernel, which retrieves the corresponding program units from memory. One or more kernels can be configured, and adjusting kernel parameters can implement a smart measurement switch management method, which can solve the problem of current enterprise power consumption issues and high experience-based costs.
[0073] This invention provides a computer-readable storage medium including a stored program that, when executed by a processor, implements the above-described management method for an intelligent measurement switch.
[0074] This invention provides a processor for running a program, wherein the program executes the management method for the intelligent measurement switch.
[0075] This invention provides an electronic device, which includes at least one processor and at least one memory connected to the processor; wherein the processor is used to call program instructions in the memory to execute the management method of the intelligent measurement switch as described above.
[0076] This invention provides an electronic device 30, such as... Figure 3 As shown, the electronic device includes at least one processor 301, and at least one memory 302 and a bus 303 connected to the processor; wherein, the processor 301 and the memory 302 communicate with each other through the bus 303; the processor 301 is used to call program instructions in the memory to execute the above-described intelligent measurement switch management method:
[0077] Upon receiving an employee's first entry request to the work area within the same work cycle, the employee's employee information and the entry identifier that received the first entry request are obtained based on the first entry request.
[0078] The target movement path is determined based on the employee's workstation location and the entrance sign, wherein the workstation location is obtained based on the employee's information query.
[0079] The lighting unit associated with the target movement path is turned on, and the on / off status of the work equipment associated with the workstation location is detected. If the work equipment is in the start state, only the lighting unit associated with the workstation location among the lighting units turned on this time is kept on. The work area includes multiple lighting units distributed in an array.
[0080] Optional, also includes:
[0081] When the lighting unit associated with the target movement path is turned on, monitor the on / off status of the switch corresponding to the lighting unit associated with the workstation position within a preset range of the workstation position.
[0082] When the switch is switched, only the lighting unit associated with the workstation position among the lighting units that are currently turned on remains on, wherein the work area includes multiple lighting units distributed in an array.
[0083] Optionally, determining the target movement path based on the employee's workstation location and the entrance marker includes:
[0084] Multiple movement paths are planned based on the employee's workstation location and the entrance sign.
[0085] The path with the most lighting units when the working equipment is in the on state and the fewest lighting units when the working equipment is in the off state is selected as the target path.
[0086] Optional, also includes:
[0087] With the work equipment in the activated state, facial image information of the employee is acquired;
[0088] The employee's work status is determined based on the brightness changes in the facial image information.
[0089] Optionally, determining the employee's work status based on the brightness change of the facial image information includes:
[0090] Calculate the frequency of change in the brightness of the employee's face as indicated by the facial image information within a preset period;
[0091] If the frequency of change is greater than a preset frequency, it is predicted that the employee is in a state of slacking off.
[0092] Optional, also includes:
[0093] If it is predicted that the employee is in a state of shirking work, the employee's personal phone number is dialed and image information of the employee's corresponding workstation location is continuously collected.
[0094] Optional, also includes:
[0095] If it is predicted that the employee is in a state of idling, the lighting unit and all display devices associated with the employee's corresponding workstation are turned off, and the facial brightness of the employee is collected within a preset time after the lighting unit and all display devices associated with the employee's corresponding workstation are turned off.
[0096] The smart electronic devices mentioned in this article can be PCs, tablets, mobile phones, etc.
[0097] This application also provides a computer program product, which, when executed on a process management electronic device, is suitable for executing a program that initializes the following method steps:
[0098] Upon receiving an employee's first entry request to the work area within the same work cycle, the employee's employee information and the entry identifier that received the first entry request are obtained based on the first entry request.
[0099] The target movement path is determined based on the employee's workstation location and the entrance sign, wherein the workstation location is obtained based on the employee's information query.
[0100] The lighting unit associated with the target movement path is turned on, and the on / off status of the work equipment associated with the workstation location is detected. If the work equipment is in the start state, only the lighting unit associated with the workstation location among the lighting units turned on this time is kept on. The work area includes multiple lighting units distributed in an array.
[0101] Optional, also includes:
[0102] When the lighting unit associated with the target movement path is turned on, monitor the on / off status of the switch corresponding to the lighting unit associated with the workstation position within a preset range of the workstation position.
[0103] When the switch is switched, only the lighting unit associated with the workstation position among the lighting units that are currently turned on remains on, wherein the work area includes multiple lighting units distributed in an array.
[0104] Optionally, determining the target movement path based on the employee's workstation location and the entrance marker includes:
[0105] Multiple movement paths are planned based on the employee's workstation location and the entrance sign.
[0106] The path with the most lighting units when the working equipment is in the on state and the fewest lighting units when the working equipment is in the off state is selected as the target path.
[0107] Optional, also includes:
[0108] With the work equipment in the activated state, facial image information of the employee is acquired;
[0109] The employee's work status is determined based on the brightness changes in the facial image information.
[0110] Optionally, determining the employee's work status based on the brightness change of the facial image information includes:
[0111] Calculate the frequency of change in the brightness of the employee's face as indicated by the facial image information within a preset period;
[0112] If the frequency of change is greater than a preset frequency, it is predicted that the employee is in a state of slacking off.
[0113] Optional, also includes:
[0114] If it is predicted that the employee is in a state of shirking work, the employee's personal phone number is dialed and image information of the employee's corresponding workstation location is continuously collected.
[0115] Optional, also includes:
[0116] If it is predicted that the employee is in a state of idling, the lighting unit and all display devices associated with the employee's corresponding workstation are turned off, and the facial brightness of the employee is collected within a preset time after the lighting unit and all display devices associated with the employee's corresponding workstation are turned off.
[0117] This application is described with reference to flowchart illustrations and / or block diagrams of methods, electronic devices (systems), and computer program products according to embodiments of this application. It will be understood that each block of the flowchart illustrations and / or block diagrams, and combinations of blocks in the flowchart illustrations and / or block diagrams, can be implemented by computer program instructions. These computer program instructions can be provided to a processor of a general-purpose computer, special-purpose computer, embedded processor, or other programmable process management electronic device to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable process management electronic device, generate instructions for implementing the process... Figure 1 One or more processes and / or boxes Figure 1 A device that provides the functions specified in one or more boxes.
[0118] In a typical configuration, an electronic device includes one or more processors (CPUs), memory, and a bus. The electronic device may also include input / output interfaces, network interfaces, etc.
[0119] Memory may include non-persistent memory in computer-readable media, such as random access memory (RAM) and / or non-volatile memory, like read-only memory (ROM) or flash RAM, and memory includes at least one memory chip. Memory is an example of computer-readable media.
[0120] Computer-readable media, including both permanent and non-permanent, removable and non-removable media, can store information using any method or technology. Information can be computer-readable instructions, data structures, program modules, or other data. Examples of computer-readable storage media for computers include, but are not limited to, phase-change memory (PRAM), static random access memory (SRAM), dynamic random access memory (DRAM), other types of random access memory (RAM), read-only memory (ROM), electrically erasable programmable read-only memory (EEPROM), flash memory or other memory technologies, CD-ROM, digital versatile optical disc (DVD) or other optical storage, magnetic tape, magnetic magnetic disk storage or other magnetic storage electronic devices, or any other non-transferable medium that can be used to store information accessible to a computing electronic device. As defined herein, computer-readable media does not include transient computer-readable media, such as modulated data signals and carrier waves.
[0121] It should also be noted that the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or electronic device that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or electronic device. Unless otherwise specified, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or electronic device that includes that element.
[0122] Those skilled in the art will understand that embodiments of this application can be provided as methods, systems, or computer program products. Therefore, this application can take the form of a completely hardware embodiment, a completely software embodiment, or an embodiment combining software and hardware aspects. Furthermore, this application can take the form of a computer program product embodied on one or more computer-usable, computer-readable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, etc.) containing computer-usable program code.
[0123] The above are merely embodiments of this application and are not intended to limit the scope of this application. Various modifications and variations can be made to this application by those skilled in the art. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this application should be included within the scope of the claims of this application.
Claims
1. A management method for an intelligent measuring switch, characterized in that, include: Upon receiving an employee's first entry request to the work area within the same work cycle, the employee's employee information and the entry identifier that received the first entry request are obtained based on the first entry request. Based on the employee information query, the employee's workstation location is obtained, and multiple movement paths are planned based on the employee's workstation location and the entrance sign. Based on the on / off state of the working device corresponding to the lighting unit associated with each movement path, the movement path with the most lighting units when the working device is on and the fewest lighting units when the working device is off is selected as the target movement path. Turn on the lighting unit associated with the target movement path and detect the on / off status of the work equipment associated with the workstation location. If the work equipment is in the start state, only keep the lighting unit associated with the workstation location in the currently turned-on lighting unit on. When the lighting unit associated with the target movement path is turned on, the on / off status of the switch corresponding to the lighting unit associated with the workstation location within a preset range of the workstation location is monitored. The switch is a switching device that controls the nearby lighting unit individually. When the switch is switched, only the lighting unit associated with the workstation position among the lighting units that are currently turned on remains on, wherein the work area includes multiple lighting units distributed in an array.
2. The method according to claim 1, characterized in that, Also includes: With the work equipment in the activated state, facial image information of the employee is acquired; The employee's work status is determined based on the brightness changes in the facial image information.
3. The method according to claim 2, characterized in that, Determining the employee's work status based on the brightness changes of the facial image information includes: Calculate the frequency of change in the brightness of the employee's face as indicated by the facial image information within a preset period; If the frequency of change is greater than a preset frequency, it is predicted that the employee is in a state of slacking off.
4. The method according to claim 3, characterized in that, Also includes: If it is predicted that the employee is in a state of shirking work, the employee's personal phone number is dialed and image information of the employee's corresponding workstation location is continuously collected.
5. The method according to claim 3, characterized in that, Also includes: If it is predicted that the employee is in a state of idling, the lighting unit and all display devices associated with the employee's corresponding workstation are turned off, and the facial brightness of the employee is collected within a preset time after the lighting unit and all display devices associated with the employee's corresponding workstation are turned off.
6. A management device for an intelligent measuring switch, characterized in that, The apparatus comprising, using the method as described in any one of claims 1 to 5, includes: The acquisition unit is used to acquire, based on the first entry request of an employee into the work area during the same work cycle, the employee information of the employee and the entry identifier that received the first entry request. The determining unit is used to determine the target movement path based on the employee's workstation location and the entrance identifier, wherein the workstation location is obtained based on the employee's information query; The control unit is used to turn on the lighting units associated with the target movement path and detect the status of the working equipment associated with the workstation location. When the working equipment is in the start-up state, only the lighting units associated with the workstation location among the lighting units that are turned on this time are kept in the on state. The working area includes multiple lighting units distributed in an array.
7. A computer-readable storage medium, characterized in that, The computer-readable storage medium includes a stored program, wherein, when the program is executed by a processor, it implements the management method of the intelligent measuring switch as described in any one of claims 1 to 5.
8. An electronic device, characterized in that, The electronic device includes at least one processor and at least one memory connected to the processor; wherein the processor is used to call program instructions in the memory to execute the management method of the intelligent measurement switch as described in any one of claims 1 to 5.