Garage lighting system control method and device, electronic equipment and storage medium

Abstract

The application provides a garage lighting system control method and device, electronic equipment and storage medium, and belongs to the technical field of lighting control. The method comprises the following steps: detecting a first target signal, detecting a moving vehicle, and then receiving and analyzing the first target signal to control a lighting lamp; and in the case of detecting the moving vehicle, a second target signal is broadcasted by an information sending end. The garage lighting system control method comprises the following steps: a plurality of lighting nodes are arranged in the garage; each lighting node does not need to be configured and debugged during use, can be replaced with each other, and can broadcast a signal to surrounding lighting nodes by using a low-power Bluetooth technology in the case of detecting the moving vehicle, so that the lighting nodes within a certain range control the lighting lamp to be turned on, the multiple lighting lamps around the vehicle realize regional lighting, the front area of the moving vehicle in the garage is illuminated, a gateway or other equipment does not need to be separately arranged, and conventional signal frequency band pollution is not caused.

Description

Technical Field

[0001] This invention relates to the field of lighting control technology, and in particular to a method, device, electronic device and storage medium for controlling a garage lighting system. Background Technology

[0002] In parking garages, pre-lighting technology typically refers to activating the garage lights in advance via sensors or other control systems before the vehicle enters, providing sufficient light to guide the driver. The main purpose of this technology is to ensure the garage interior is adequately lit before the driver enters, enhancing safety and convenience.

[0003] In related technologies, monitoring devices such as cameras are typically used to monitor whether a vehicle enters the parking garage and the route the vehicle takes within the garage. A central processor controls the lights in different locations within the garage to provide front lighting guidance for vehicles entering the garage. Furthermore, intelligent control of some lights saves energy.

[0004] However, the central processing unit in these technologies typically requires network devices such as gateways or standard Bluetooth modules to control the lights in different locations. When large-scale lighting is deployed in a garage, the simultaneous operation of numerous devices leads to significant signal interference and collisions between other terminal devices and the lighting, both spatially and in terms of frequency bands. In other words, the large-scale deployment of lighting in a garage generates severe signal pollution during operation, affecting the functioning of other smart devices. Summary of the Invention

[0005] This invention provides a garage lighting system control method, device, electronic device, and storage medium to solve the defect of existing garage lighting systems that generate a large amount of signal pollution, thereby reducing signal pollution in the garage.

[0006] This invention provides a method for controlling a garage lighting system. The garage lighting system includes multiple lighting nodes installed at different locations on different floors of the garage. Each lighting node includes an electrically connected lighting lamp, a radar detection device, an information transmitter, and an information receiver / processor. The method is applied to the information receiver / processor and includes:

[0007] The system detects a first target signal and a moving vehicle using the radar detection device; the first target signal is a broadcast signal including target identification information; the target identification information is used to identify the identity and location information of the lighting node corresponding to the received first target signal; and the broadcast signal is a low-power Bluetooth broadcast signal.

[0008] Upon receiving the first target signal, the first target signal is analyzed to determine its signal strength and target identification information. If a moving vehicle is detected by the radar detection device, a second target signal is broadcast through the information transmitting terminal. The second target signal includes target identification information for identifying the corresponding lighting node. The second target signal is determined based on the location information of the corresponding lighting node.

[0009] Based on the signal strength of the first target signal and the target identification information of the first target signal, the corresponding lighting is controlled to be turned on for the first target duration.

[0010] According to a garage lighting system control method provided by the present invention, the step of controlling the corresponding lighting lamp to be turned on for a first target duration based on the signal strength of the first target signal and the target identification information of the first target signal includes:

[0011] Determine that the target identification information of the first target signal matches the corresponding lighting node;

[0012] It is determined that the signal strength of the first target signal is greater than the first strength threshold;

[0013] Control the duration for which the corresponding lighting is turned on for the first target.

[0014] According to a garage lighting system control method provided by the present invention, the step of determining the target identification information of the first target signal and matching it with the corresponding lighting node includes:

[0015] The target identification information of the first target signal is compared with at least one identification information stored in the corresponding lighting node;

[0016] If the target identification information of the first target signal matches the identity information and location information stored in the identification information of the corresponding lighting node, it is determined that the target identification information of the first target signal matches the corresponding lighting node.

[0017] According to a garage lighting system control method provided by the present invention, the corresponding lighting node is located at the floor connection passage. The second target signal includes a third target signal and a fourth target signal. The target identification information of the third target signal matches the lighting node at the floor connection passage, and the target identification information of the fourth target signal matches the lighting node that is not at the floor connection passage.

[0018] According to a garage lighting system control method provided by the present invention, the corresponding lighting node is located in the aisle next to the parking space. Upon receiving the first target signal, the method analyzes the first target signal to determine its signal strength and target identification information. The method further includes:

[0019] Determine the number of times the first target signal is received within a second target time period after the first target signal is received, and the target signal strength of each received first target signal;

[0020] Based on the target number and the target signal strength, a second target signal is sent to control the received lighting to be turned on for the first target duration.

[0021] According to a garage lighting system control method provided by the present invention, the step of sending a second target signal based on the target number of times and the target signal strength includes:

[0022] When the number of the second target signals, where the target number is greater than the first threshold and the target signal strength is greater than the second threshold, is greater than the second threshold, the second target signal is sent, and the first threshold is greater than the second threshold.

[0023] According to a garage lighting system control method provided by the present invention, the step of sending a second target signal based on the target number of times and the target signal strength includes:

[0024] When the number of second target signals, where the target number is less than or equal to the first number threshold and the target signal strength is greater than the second strength threshold, is greater than the third number threshold, the second target signal is sent, wherein the first number threshold is greater than the third number threshold and the third number threshold is greater than the second number threshold.

[0025] The present invention also provides a garage lighting system control device, comprising:

[0026] The monitoring module is used to detect a first target signal and detect moving vehicles through the radar detection device; the first target signal is a broadcast signal including target identification information; the target identification information is used to identify the identity information and location information of the lighting node corresponding to the received first target signal; the broadcast signal is a low-power Bluetooth broadcast signal.

[0027] A first processing module is configured to, upon receiving the first target signal, analyze the first target signal to determine its signal strength and target identification information; and, upon detecting a moving vehicle via the radar detection device, broadcast a second target signal via the information transmitting terminal; the second target signal includes target identification information for identifying the corresponding lighting node; the second target signal is determined based on the location information of the corresponding lighting node.

[0028] The second processing module is used to control the corresponding lighting lamp to be turned on for the first target duration based on the signal strength of the first target signal and the target identification information of the first target signal.

[0029] The present invention also provides an electronic device, including a memory, a processor, and a computer program stored in the memory and executable on the processor, wherein the processor executes the program to implement the garage lighting system control method as described above.

[0030] The present invention also provides a non-transitory computer-readable storage medium having a computer program stored thereon, which, when executed by a processor, implements the garage lighting system control method as described above.

[0031] The present invention also provides a computer program product, including a computer program that, when executed by a processor, implements the garage lighting system control method as described above.

[0032] The garage lighting system control method, device, electronic equipment, and storage medium provided by this invention, by setting up multiple pre-configured lighting nodes in the garage, allows each lighting node to be used without configuration or debugging, and can be replaced with each other. When the radar detection device of the current lighting node detects a moving vehicle, it can use low-power Bluetooth technology to broadcast signals to surrounding lighting nodes, so that lighting nodes within a certain range can control the lights to turn on, enabling multiple lights around the vehicle to provide area lighting, and also achieving front area lighting for moving vehicles in the garage. Moreover, it does not require separate gateways or other equipment, and does not generate conventional signal frequency pollution. Attached Figure Description

[0033] To more clearly illustrate the technical solutions in this invention or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are some embodiments of this invention. For those skilled in the art, other drawings can be obtained from these drawings without creative effort.

[0034] Figure 1This is one of the flowcharts illustrating the garage lighting system control method provided by the present invention;

[0035] Figure 2 This is the second flowchart illustrating the garage lighting system control method provided by the present invention;

[0036] Figure 3 This is a schematic diagram of the structure of the garage lighting system control device provided by the present invention;

[0037] Figure 4 This is a schematic diagram of the structure of the electronic device provided by the present invention. Detailed Implementation

[0038] To make the objectives, technical solutions, and advantages of this invention clearer, the technical solutions of this invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some, not all, of the embodiments of this invention. All other embodiments obtained by those skilled in the art based on the embodiments of this invention without creative effort are within the scope of protection of this invention.

[0039] The following is combined with Figures 1-4 The present invention describes a garage lighting system control method, apparatus, electronic device, and storage medium.

[0040] The garage lighting system of this invention includes multiple lighting nodes installed at different locations on different floors of the garage. It is understood that a garage may include multiple floors for parking, which can be floors in an underground building or floors within an above-ground building. A garage contains many different locations, such as parking spaces, passageways for vehicle traffic, connecting passageways between different garage floors, and locations for emergency facilities, etc.

[0041] The lighting node includes interconnected lighting lamps, radar detection devices, information transmitters, and information receivers / processors.

[0042] Lighting fixtures can take the form of tubes or bulbs, and LED lights can be used to save energy. There are no restrictions on the shape and material of the lighting fixtures.

[0043] It should be noted that the lighting can have different brightness levels, and can be turned on, off, and have its brightness level adjusted under the control of a control signal.

[0044] The radar detection device can be a vehicle detection radar or a vehicle motion detection radar used to detect the presence of moving vehicles.

[0045] Vehicle detection radar is a device that detects vehicle movement by emitting wireless radar waves and receiving their echoes. It utilizes the object detection principle of radar technology, measuring the time delay and frequency changes of the echoes to determine information such as the vehicle's presence, position, speed, and direction.

[0046] Radar detection devices can reliably detect vehicles under different environmental conditions, unaffected by factors such as light, temperature, and humidity.

[0047] The information transmitter is used to broadcast specific information so that the information receiving and processing terminals of other lighting nodes within a certain range can receive and identify it.

[0048] The information receiving and processing terminal can receive and identify signals, analyze the received and identified signals, obtain analysis results, and generate control commands based on the analysis results to send to the lighting, thereby realizing the control of the lighting.

[0049] It should be noted that the garage lighting system control method of this embodiment can be applied to the information receiving and processing end, that is, the information receiving and processing end of each lighting node in the garage is the execution subject of the garage lighting system control method of this embodiment.

[0050] like Figure 1 As shown, the garage lighting system control method of this embodiment mainly includes steps 110, 120 and 130.

[0051] Step 110: Detect the first target signal and detect moving vehicles using a radar detection device.

[0052] It should be noted that the first target signal is a signal sent by each lighting node in the garage through its respective information transmitter, which is used to enable the lighting node that receives the first target signal to determine whether to turn on the corresponding light.

[0053] The target identification information is used to identify the identity and location information of the lighting node corresponding to the received first target signal.

[0054] It is understood that the target identification information may include the identity information and location information of the lighting node corresponding to the transmitter of the first target signal. The identity information is used to determine that the received first target signal was sent by the transmitter of a lighting node in the lighting system, and the location information can be used to determine the location of the lighting node that sent the first target signal.

[0055] The first target signal is a broadcast signal that includes target identification information, meaning it can cover a wide range of receiving devices and can thus be received by the information receiving and processing terminals of multiple lighting nodes in the garage. Furthermore, the broadcast signal is non-directional during propagation; it radiates uniformly in the form of radio waves or other media and can be captured by the information receiving and processing terminals of surrounding lighting nodes.

[0056] It should be noted that the broadcast signal is a Bluetooth Low Energy (BLE) broadcast signal, which operates on a different frequency band than regular Bluetooth and network signals and will not interfere with the operation of other devices. Bluetooth Low Energy (BLE) broadcasting is a broadcast technology where one device sends a message and another receives it. For example, BLE broadcasting uses the iBeacon or Beacon protocol, where the transmitter broadcasts a unique, universally unique identifier (UUID) and other relevant information over the air.

[0057] In some embodiments, the target identification information may include a UUID. In this case, the same UUID can be configured in all lighting nodes of the garage lighting system. That is, each lighting node in the current garage is configured with the same UUID. Different lighting nodes can be replaced by each other, which facilitates the identification of lighting nodes. That is, all lighting nodes belong to the same garage and can broadcast and receive information from each other.

[0058] Step 120: Upon receiving the first target signal, analyze the first target signal to determine its signal strength and target identification information; if a moving vehicle is detected by the radar detection device, broadcast the second target signal through the information transmitter.

[0059] It is understandable that, upon receiving the first target signal, the first target signal can be analyzed to determine its signal strength and target identification information.

[0060] The second target signal is also a signal sent by each lighting node in the garage through its own information transmitter, used to enable other lighting nodes in the garage to receive the second target signal to determine whether to turn it on.

[0061] When the radar detection device of the current lighting node detects a moving vehicle, the radar detection device can send a command to the information receiving and processing terminal to detect the moving vehicle. The information receiving and processing terminal then controls the information sending terminal to broadcast a second target signal, so that the information receiving and processing terminals of other lighting nodes near the current lighting node can receive the second target signal for identification, determine whether it is the information broadcast by the current lighting node in the garage, and then determine whether to turn it on.

[0062] It is understood that the second target signal includes target identification information for identifying the corresponding lighting node, and the second target signal is determined based on the location information of the corresponding lighting node, thereby facilitating other lighting nodes to determine that the received second target signal was emitted by a lighting node in the same garage.

[0063] In this embodiment, lighting nodes in different locations within the garage can be pre-configured with the same information before installation, eliminating the need for additional configuration and debugging after installation, allowing for direct use. During use, idle lighting nodes in other locations can also be directly replaced without debugging, reducing the complexity of use and eliminating the need for configuration and debugging during lighting node operation, thus facilitating user convenience.

[0064] Step 130: Based on the signal strength of the first target signal and the target identification information of the first target signal, control the corresponding lighting to be turned on for the duration of the first target.

[0065] It is understandable that the duration for which the corresponding lighting is turned on at the first target can be controlled based on the signal strength of the received first target signal and the target identification information.

[0066] It is understandable that the identity of the lighting node that sent the first target signal can be determined based on the target identification information of the first target signal, thus completing the authentication of the lighting node that sent the first target signal.

[0067] In BLE technology, the received signal strength of the first target signal can be calculated and measured using the Received Signal Strength Indicator (RSSI). There is a correlation between the RSSI and the transmission distance, thus allowing the distance between the illumination node transmitting the first target signal and the illumination node currently receiving the signal to be determined based on the received signal strength of the first target signal.

[0068] Understandably, the RSSI value of a BLE device can be used to estimate the approximate distance between the device and the receiver. Signal propagation is affected by path loss; as distance increases, signal strength gradually decreases. Therefore, the greater the distance between the transmitter and the signal receiver, the lower the RSSI value.

[0069] In some embodiments, when the signal strength of the first target signal is extremely strong, that is, when the RSSI value of the first target signal is within the first interval range, it indicates that other lighting nodes that are very close to the current lighting node have detected a moving vehicle, and there is a moving vehicle and lighting demand around the current lighting node. Therefore, the corresponding lighting can be controlled to turn on the first target for a higher brightness level.

[0070] In some embodiments, when the signal strength of the first target signal is strong, that is, when the RSSI value of the first target signal is within the second interval range, it indicates that other lighting nodes that are close to the current lighting node have detected a moving vehicle, and there is a moving vehicle and a certain lighting demand within a certain range around the current lighting node. Therefore, the corresponding lighting can be controlled to turn on the first target for a shorter duration at a lower brightness level.

[0071] In some embodiments, when the signal strength of the first target signal is weak, that is, when the RSSI value of the first target signal is within the third interval range, it indicates that other lighting nodes that are far away from the current lighting node have detected a moving vehicle. There is a moving vehicle in the far range around the current lighting node, but there is no lighting requirement. Therefore, the corresponding lights can be controlled not to turn on.

[0072] According to the garage lighting system control method provided in the embodiments of the present invention, multiple pre-configured lighting nodes are set in the garage. Each lighting node does not require configuration or debugging during use and can be replaced with each other. When the radar detection device of the current lighting node detects a moving vehicle, it can use Bluetooth Low Energy technology to broadcast signals to the surrounding lighting nodes, so that the lighting nodes within a certain range can control the lights to turn on, so that multiple lights around the vehicle can achieve area lighting, and also achieve front area lighting of moving vehicles in the garage. Moreover, no separate gateway or other equipment is required, and there is no conventional signal frequency pollution.

[0073] In some embodiments, controlling the corresponding lighting to turn on for the first target duration based on the signal strength of the first target signal and the target identification information of the first target signal includes the following process.

[0074] It can be determined that the target identification information of the first target signal matches the corresponding lighting node, and then it can be determined that the signal strength of the first target signal is greater than the first strength threshold, thereby controlling the duration for which the corresponding lighting lamp is turned on to illuminate the first target.

[0075] Understandably, the target identification information is used to identify the identity and location information of the lighting node corresponding to the received first target signal.

[0076] Different target identification information can be stored in lighting nodes at different locations in the same garage. That is, the lighting node can only control the lighting according to the first target signal that is the same as the target identification information it stores.

[0077] After receiving the first target signal, the target identification information in the first target signal is first matched with the information stored in the corresponding lighting node.

[0078] In some embodiments, determining that the target identification information of the first target signal matches the corresponding lighting node includes comparing the target identification information of the first target signal with at least one identification information stored in the corresponding lighting node, and then determining that the target identification information of the first target signal matches the corresponding lighting node if the target identification information of the first target signal matches the identity information and location information in one of the identification information stored in the corresponding lighting node.

[0079] For example, the UUID of the first target signal can be compared with the UUID stored in the lighting node. Lighting nodes installed in the same type of location in the same garage use and store the same UUID.

[0080] Based on this, only when the target identification information of the first target signal is the same as the target identification information in the corresponding lighting node, that is, a match, can it be said that the received first target signal belongs to the signal sent by other lighting nodes in the current garage. Only then can it be determined that the signal strength of the first target signal is greater than the first strength threshold, thereby controlling the duration of the first target light to be turned on. This facilitates independent information transmission between lighting nodes of different types of locations without interfering with signal transmission between other types of locations.

[0081] In some embodiments, the corresponding lighting node is located at the floor connection passage, and the second target signal includes a third target signal and a fourth target signal. The target identification information of the third target signal matches the lighting node at the floor connection passage, and the target identification information of the fourth target signal matches the lighting node that is not at the floor connection passage.

[0082] It should be noted that, in this embodiment, multiple target identification information can be pre-configured internally within the lighting node according to its installation location. Different target identification information is used to generate different target signals for lighting nodes at different locations to receive.

[0083] In this case, only lighting nodes configured with the same target identification information can be substituted for each other.

[0084] In this embodiment, target identification information corresponding to a third target signal can be configured in the lighting nodes within the floor connection passage, and target identification information corresponding to a fourth target signal can be configured in the lighting nodes near the floor connection passage but not located within the floor connection passage.

[0085] It is understandable that at the location of the floor connection passage, each end of the passage connects to a different floor. When a vehicle travels to either end of the floor connection passage, the lighting nodes at both ends of the passage detect the moving vehicle, and the vehicle may enter the passage. A third target signal and a fourth target signal can be sent, causing the lights in the floor connection passage that receive the third target signal to turn on, and causing the lights that receive the fourth target signal and are near but not within the floor connection passage to turn on.

[0086] When a vehicle travels into the connecting passageway between floors, and the lighting nodes within the passageway detect the moving vehicle, the vehicle enters the passageway. A third target signal can be sent, causing the lights within the connecting passageway that receive the third target signal to turn on.

[0087] When a vehicle travels to the other end of the floor connection passage, the lighting node at this end of the passage detects the moving vehicle, and the vehicle may travel to another floor. A third target signal and a fourth target signal can be sent, causing the lights in the floor connection passage receiving the third target signal to turn on, and causing the lights on another floor near but not within the floor connection passage to turn on, upon receiving the fourth target signal.

[0088] In other words, by setting different first target signals at different locations within the floor connection passage, precise lighting control can be achieved for vehicles changing floors, improving the precision and intelligence of the lighting system control, saving energy, and making things more convenient for drivers.

[0089] In some embodiments, such as Figure 2 As shown, the corresponding lighting node is located in the passageway next to the parking space. After receiving the first target signal, the first target signal is analyzed to determine the signal strength and target identification information of the first target signal. The garage lighting system control method of this embodiment of the invention further includes steps 210 and 220.

[0090] Step 210: Determine the number of times the first target signal is received within the second target time after the first target signal is received, and the target signal strength of each received first target signal.

[0091] Step 220: Based on the target number and target signal strength, send a second target signal to control the duration of the received lighting on the first target.

[0092] It is understandable that when the lighting node is located in the aisle next to the parking space, considering the actual parking process and the scenario where many vehicles intersect, the frequency of receiving the first target signal can be statistically analyzed to determine the number of times the first target signal is received within the second target time after receiving the first target signal, as well as the target signal strength of each received first target signal.

[0093] If the number of subsequent first target signals received is too high and the target signal strength is high, it can be determined that there may be parking or a large number of vehicles converging at the current location within a certain period of time, and the lights need to be kept on continuously for illumination.

[0094] In this embodiment, when the current lighting node may have lighting needs in the current area, it also sends a second target signal, so that the surrounding lighting nodes can turn on the lights after receiving the second target signal, thereby improving the management precision and accuracy of the garage lighting system.

[0095] In some embodiments, sending a second target signal based on a target number and a target signal strength includes: sending a second target signal when the number of second target signals with a target number greater than a first number threshold and a target signal strength greater than a second strength threshold is greater than a second number threshold, wherein the first number threshold is greater than the second number threshold.

[0096] It is understandable that if the number of second target signals is greater than the first threshold and the target signal strength is greater than the second threshold, it can be determined that the frequency of vehicles approaching the current location is high and there may be a continuous need for lighting in the current area. This would cause the current lighting node to send the second target signal to turn on the nearby lights even if no vehicles are detected.

[0097] In some embodiments, sending a second target signal based on a target number of times and a target signal strength includes: sending a second target signal when the number of second target signals with a target number of times less than or equal to a first number threshold and a target signal strength greater than a second strength threshold is greater than a third number threshold.

[0098] It is understandable that if the number of second target signals, where the number of target counts is less than or equal to the first threshold and the target signal strength is greater than the second threshold, is greater than the third threshold, then the first threshold is greater than the third threshold, and the third threshold is greater than the second threshold. This indicates that there are a certain number of lighting nodes around the current lighting node that have detected moving vehicles; that is, the number of target counts is relatively low, but the lighting nodes that have detected moving vehicles are very close to the current location.

[0099] In this situation, it can be determined that there is a high frequency of vehicles approaching from nearby locations, and there may be a continuous need for lighting in the current area. This allows the current lighting node to send a second target signal to turn on nearby lights even when no vehicles are detected, thereby further improving the accuracy of the lighting system control.

[0100] The garage lighting system control device provided by the present invention is described below. The garage lighting system control device described below can be referred to in correspondence with the garage lighting system control method described above.

[0101] like Figure 3 As shown, the garage lighting system control device of this invention mainly includes a monitoring module, a first processing module, and a second processing module.

[0102] The monitoring module 310 is used to detect the first target signal and detect moving vehicles through the radar detection device; the first target signal is a broadcast signal including target identification information; the target identification information is used to identify the identity information and location information of the lighting node corresponding to the received first target signal, and the broadcast signal is a low-power Bluetooth broadcast signal;

[0103] The first processing module 320 is used to analyze the first target signal upon receiving it, and determine the signal strength and target identification information of the first target signal; and to broadcast a second target signal through an information transmitter when a moving vehicle is detected by a radar detection device; the second target signal includes target identification information for identifying the corresponding lighting node; the second target signal is determined based on the position information of the corresponding lighting node.

[0104] The second processing module 330 is used to control the duration for which the corresponding lighting is turned on for the first target based on the signal strength of the first target signal and the target identification information of the first target signal.

[0105] According to the embodiments of the present invention, the garage lighting system control device sets up multiple pre-configured lighting nodes in the garage. Each lighting node does not require configuration or debugging during use and can be replaced with each other. When the radar detection device of the current lighting node detects a moving vehicle, it can use low-power Bluetooth technology to broadcast signals to the surrounding lighting nodes, so that the lighting nodes within a certain range can control the lights to turn on, so that multiple lights around the vehicle can achieve area lighting, and also achieve front area lighting for moving vehicles in the garage. Moreover, no separate gateway or other equipment is required, and there is no conventional signal frequency pollution.

[0106] In some embodiments, the second processing module 330 is further configured to determine that the target identification information of the first target signal matches the corresponding lighting node; determine that the signal strength of the first target signal is greater than a first strength threshold; and control the corresponding lighting lamp to turn on for the first target duration.

[0107] In some embodiments, the second processing module 330 is further configured to compare the target identification information of the first target signal with at least one identification information stored in the corresponding lighting node; and if the target identification information of the first target signal matches the identity information and location information in one of the identification information stored in the corresponding lighting node, determine that the target identification information of the first target signal matches the corresponding lighting node.

[0108] In some embodiments, the corresponding lighting node is located at the floor connection passage, and the second target signal includes a third target signal and a fourth target signal. The target identification information of the third target signal matches the lighting node at the floor connection passage, and the target identification information of the fourth target signal matches the lighting node that is not at the floor connection passage.

[0109] In some embodiments, the corresponding lighting node is located in the passageway next to the parking space. The garage lighting system control device of this embodiment further includes a third processing module. The third processing module is used to determine the target number of times the first target signal is received within a second target duration after the first target signal is received, and the target signal strength of each received first target signal; based on the target number and target signal strength, a second target signal is sent to control the received lighting to be turned on for a first target duration.

[0110] In some embodiments, the third processing module is further configured to send a second target signal when the number of second target signals with a target count greater than the first count threshold and a target signal strength greater than the second strength threshold is greater than the second count threshold, wherein the first count threshold is greater than the second count threshold.

[0111] In some embodiments, the third processing module is further configured to send a second target signal when the number of second target signals with a target count less than or equal to the first count threshold and a target signal strength greater than the second strength threshold is greater than the third count threshold, wherein the first count threshold is greater than the third count threshold and the third count threshold is greater than the second count threshold.

[0112] Figure 4 An example is a schematic diagram of the physical structure of an electronic device, such as... Figure 4 As shown, the electronic device may include: a processor 410, a communication interface 420, a memory 430, and a communication bus 440, wherein the processor 410, the communication interface 420, and the memory 430 communicate with each other through the communication bus 440. The processor 410 can call logic instructions in the memory 430 to execute a garage lighting system control method, which includes: detecting a first target signal and detecting a moving vehicle via a radar detection device; the first target signal is a broadcast signal including target identification information; the target identification information is used to identify the identity and location information of the lighting node corresponding to the received first target signal, and the broadcast signal is a low-power Bluetooth broadcast signal; upon receiving the first target signal, analyzing the first target signal to determine the signal strength and target identification information of the first target signal; upon detecting a moving vehicle via the radar detection device, broadcasting a second target signal via an information transmitter; the second target signal includes target identification information for identifying the corresponding lighting node; the second target signal is determined based on the location information of the corresponding lighting node; and controlling the corresponding lighting to be on for a first target duration based on the signal strength and target identification information of the first target signal.

[0113] Furthermore, the logical instructions in the aforementioned memory 430 can be implemented as software functional units and, when sold or used as independent products, can be stored in a computer-readable storage medium. Based on this understanding, the technical solution of the present invention, essentially, or the part that contributes to the prior art, or a part of the technical solution, can be embodied in the form of a software product. This computer software product is stored in a storage medium and includes several instructions to cause a computer device (which may be a personal computer, server, or network device, etc.) to execute all or part of the steps of the methods described in the various embodiments of the present invention. The aforementioned storage medium includes various media capable of storing program code, such as USB flash drives, portable hard drives, read-only memory (ROM), random access memory (RAM), magnetic disks, or optical disks.

[0114] On the other hand, the present invention also provides a computer program product, which includes a computer program that can be stored on a non-transitory computer-readable storage medium. When the computer program is executed by a processor, the computer can execute the garage lighting system control method provided by the above methods. The method includes: detecting a first target signal and detecting a moving vehicle by a radar detection device; the first target signal is a broadcast signal including target identification information; the target identification information is used to identify the identity information and location information of the lighting node corresponding to the received first target signal, and the broadcast signal is a low-power Bluetooth broadcast signal; upon receiving the first target signal, analyzing the first target signal to determine the signal strength of the first target signal and the target identification information of the first target signal; upon detecting a moving vehicle by the radar detection device, broadcasting a second target signal through an information transmitter; the second target signal includes target identification information for identifying the corresponding lighting node; the second target signal is determined based on the location information of the corresponding lighting node; and controlling the corresponding lighting to be turned on for a first target duration based on the signal strength of the first target signal and the target identification information of the first target signal.

[0115] In another aspect, the present invention also provides a non-transitory computer-readable storage medium storing a computer program thereon, which, when executed by a processor, implements the garage lighting system control method provided by the above methods. The method includes: detecting a first target signal and detecting a moving vehicle via a radar detection device; the first target signal is a broadcast signal including target identification information; the target identification information is used to identify the identity and location information of the lighting node corresponding to the received first target signal, and the broadcast signal is a low-power Bluetooth broadcast signal; upon receiving the first target signal, analyzing the first target signal to determine the signal strength of the first target signal and the target identification information of the first target signal; upon detecting a moving vehicle via the radar detection device, broadcasting a second target signal via an information transmitter; the second target signal includes target identification information for identifying the corresponding lighting node; the second target signal is determined based on the location information of the corresponding lighting node; and controlling the corresponding lighting to be turned on for a first target duration based on the signal strength of the first target signal and the target identification information of the first target signal.

[0116] The device embodiments described above are merely illustrative. The units described as separate components may or may not be physically separate. The components shown as units may or may not be physical units; that is, they may be located in one place or distributed across multiple network units. Some or all of the modules can be selected to achieve the purpose of this embodiment according to actual needs. Those skilled in the art can understand and implement this without any creative effort.

[0117] Through the above description of the embodiments, those skilled in the art can clearly understand that each embodiment can be implemented by means of software plus necessary general-purpose hardware platforms, and of course, it can also be implemented by hardware. Based on this understanding, the above technical solutions, in essence or the part that contributes to the prior art, can be embodied in the form of a software product. This computer software product can be stored in a computer-readable storage medium, such as ROM / RAM, magnetic disk, optical disk, etc., and includes several instructions to cause a computer device (which may be a personal computer, server, or network device, etc.) to execute the methods described in the various embodiments or some parts of the embodiments.

[0118] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of the present invention, and not to limit them; although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some of the technical features; and these modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims

1. A method for controlling a garage lighting system, characterized in that, The garage lighting system includes multiple lighting nodes located at different positions on different floors of the garage. Each lighting node includes electrically connected lighting lamps, radar detection devices, information transmitters, and information receivers / processors. The method is applied to the information receiver / processor, and the method includes: The system detects a first target signal and a moving vehicle using the radar detection device; the first target signal is a broadcast signal including target identification information; the target identification information is used to identify the identity and location information of the lighting node corresponding to the received first target signal; and the broadcast signal is a low-power Bluetooth broadcast signal. Upon receiving the first target signal, the first target signal is analyzed to determine its signal strength and target identification information. If a moving vehicle is detected by the radar detection device, the radar detection device can send a command to the information receiving and processing terminal indicating that a moving vehicle has been detected. The information receiving and processing terminal then controls the information sending terminal to broadcast a second target signal, so that the information receiving and processing terminals of other lighting nodes near the current lighting node can receive and identify the second target signal, determine whether it is information broadcast by a lighting node in the current garage, and then determine whether to turn it on. The second target signal includes target identification information for identifying the corresponding lighting node. The second target signal is determined based on the location information of the corresponding lighting node. The corresponding lighting node is located in the aisle next to the parking space. The target number of times the first target signal is received within a second target duration after the first target signal is received, as well as the target signal strength of each first target signal received, are determined. Based on the target number of times and the target signal strength, a second target signal is sent to control the received lighting to be turned on for a first target duration. Based on the signal strength of the first target signal and the target identification information of the first target signal, the corresponding lighting is controlled to be turned on for the first target duration.

2. The garage lighting system control method according to claim 1, characterized in that, The step of controlling the corresponding lighting to be on for a first target duration based on the signal strength of the first target signal and the target identification information of the first target signal includes: Determine that the target identification information of the first target signal matches the corresponding lighting node; It is determined that the signal strength of the first target signal is greater than the first strength threshold; Control the duration for which the corresponding lighting is turned on for the first target.

3. The garage lighting system control method according to claim 2, characterized in that, The step of determining that the target identification information of the first target signal matches the corresponding lighting node includes: The target identification information of the first target signal is compared with at least one identification information stored in the corresponding lighting node; If the target identification information of the first target signal matches the identity information and location information stored in the identification information of the corresponding lighting node, it is determined that the target identification information of the first target signal matches the corresponding lighting node.

4. The garage lighting system control method according to claim 3, characterized in that, The corresponding lighting node is located at the floor connection passage. The second target signal includes a third target signal and a fourth target signal. The target identification information of the third target signal matches the lighting node at the floor connection passage. The target identification information of the fourth target signal matches the lighting node that is not at the floor connection passage.

5. The garage lighting system control method according to claim 1, characterized in that, The step of sending a second target signal based on the target number and the target signal strength includes: When the number of the second target signals, where the target number is greater than the first threshold and the target signal strength is greater than the second threshold, is greater than the second threshold, the second target signal is sent, and the first threshold is greater than the second threshold.

6. The garage lighting system control method according to claim 5, characterized in that, The step of sending a second target signal based on the target number and the target signal strength includes: When the number of second target signals, where the target number is less than or equal to the first number threshold and the target signal strength is greater than the second strength threshold, is greater than the third number threshold, the second target signal is sent, wherein the first number threshold is greater than the third number threshold and the third number threshold is greater than the second number threshold.

7. A garage lighting system control device, characterized in that, include: The monitoring module is used to detect the first target signal and to detect moving vehicles through a radar detection device; The first target signal is a broadcast signal that includes target identification information; The target identification information is used to identify the identity and location information of the lighting node corresponding to the received first target signal, and the broadcast signal is a low-power Bluetooth broadcast signal; The first processing module is configured to, upon receiving the first target signal, analyze the first target signal to determine its signal strength and target identification information; when a moving vehicle is detected by the radar detection device, the radar detection device can send a command to the information receiving and processing terminal to detect the moving vehicle, and the information receiving and processing terminal then controls the information sending terminal to broadcast a second target signal, so that the information receiving and processing terminals of other lighting nodes near the current lighting node can receive the second target signal for identification, determine whether it is information broadcast by the lighting node in the current garage, and then determine whether to turn it on; the second target signal includes target identification information for identifying the corresponding lighting node. The second target signal is determined based on the location information of the corresponding lighting node; the corresponding lighting node is located in the aisle next to the parking space, and the target number of times the first target signal is received within the second target time after the first target signal is received and the target signal strength of each received first target signal are determined. Based on the target number and the target signal strength, a second target signal is sent to control the received lighting to be turned on for the first target duration; The second processing module is used to control the corresponding lighting lamp to be turned on for the first target duration based on the signal strength of the first target signal and the target identification information of the first target signal.

8. An electronic device comprising a memory, a processor, and a computer program stored in the memory and executable on the processor, characterized in that, When the processor executes the program, it implements the garage lighting system control method as described in any one of claims 1 to 6.

9. A non-transitory computer-readable storage medium having a computer program stored thereon, characterized in that, When the computer program is executed by the processor, it implements the garage lighting system control method as described in any one of claims 1 to 6.

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