TWI732273B - Control mechanism of sevice scope and sevice intensity of electronic equipment - Google Patents

Abstract

A control mechanism of service scope and service intensity of electronic equipment is introduced. The electronic equipment includes at least one antenna, a wireless communication module and a processing unit. The electronic equipment is configured to provide a service. The control mechanism of service scope and service intensity of electronic equipment includes: the wireless communication module being electrically connected to the at least one antenna and the processing unit; the wireless communication module receiving a wireless signal of a terminal mobile device in an antenna sensing range of the at least one antenna through the at least one antenna sensing; the processing unit generating a control signal according to the wireless signal; and adjusting a service scope and a service intensity of the electronic equipment according to the control signal.

Description

The control mechanism of the service range and service intensity of electronic equipment

The present invention is related to a control mechanism for the service range and service intensity of an electronic device, especially a control mechanism that can adjust the service range and service intensity of the electronic device according to the wireless signals of the surrounding wireless devices.

At present, the control mechanism of general electronic equipment on the market is mostly to adjust the service range and service intensity at one time. For example, the antenna of a general Wi-Fi wireless router. The user can manually adjust the direction and angle of the antenna. However, the general The antenna of the Wi-Fi wireless router cannot automatically adjust the direction and angle of the antenna. In addition, the general electronic equipment with automatic control mechanism cannot fully adjust the service range and service intensity according to the needs of the user. For example, an electric light with infrared sensor function can detect whether there are pedestrians through the infrared sensor. After turning on the light, however, the light with infrared sensing function can only be set to turn on or off the light during sensing, and other functional details of the light (such as the brightness and range of the lighting) cannot be adjusted. In other words, manual control in the control mechanism of general electronic equipment causes excessive control costs, while automatic control cannot optimize the service range and service intensity of electronic equipment.

The purpose of the present invention is to provide a control mechanism that can adjust the service range and service intensity of an electronic device according to the wireless signals of the surrounding wireless devices.

The control mechanism for the service range and service intensity of an electronic device of the present invention. The electronic device includes at least one antenna, a wireless communication module, and a processing unit. The electronic device provides a service. The service range and service intensity of the electronic device The control mechanism includes: the wireless communication module is electrically connected to the at least one antenna and the processing unit; the wireless communication module uses the at least one antenna to receive a wireless signal generated by a terminal mobile device within the sensing range of the antenna; the The processing unit generates a control signal according to the wireless signal; and the electronic device adjusts the service intensity and service range provided by the electronic device according to the control signal.

In an embodiment of the control mechanism of the service range and service intensity of the electronic device of the present invention, the processing unit determines the wireless signals of a plurality of terminal mobile devices within the antenna sensing range received by the wireless communication module. Received a plurality of received signal strength indicators (Received Signal Strength Indication, RSSI), the processing unit generates the control signal according to the received plurality of received signal strength indicators.

In an embodiment of the control mechanism for the service range and service intensity of the electronic device of the present invention, the wireless signal of the terminal mobile device is the Wi-Fi Media Access Control Address (Media Access Control Address) used by the terminal mobile device. , MAC) or the Bluetooth Device Address (Bluetooth Device Address) of the Bluetooth (Bluetooth) used by the terminal mobile device.

In an embodiment of the control mechanism of the service range and service intensity of the electronic device of the present invention, the processing unit calculates the distribution range of the terminal mobile device according to the received signal strength index. Confinement, distribution intensity, and movement status.

In an embodiment of the control mechanism of the service range and service intensity of the electronic equipment of the present invention, the processing unit calculates the distribution range, distribution intensity, and movement status of the plurality of terminal mobile devices according to the calculated distribution range, distribution intensity, and movement status of each terminal mobile device. The movement path of a terminal and the speed of a terminal are used for the statistics of the surrounding pedestrian flow.

In an embodiment of the control mechanism for the service range and service intensity of the electronic device of the present invention, the processing unit determines the type of vehicle used when the user of the mobile device moves or walks according to the speed of the terminal to perform Statistics of the distribution range and quantity of surrounding mobile vehicles.

In an embodiment of the control mechanism of the service range and service intensity of the electronic device of the present invention, the electronic device further includes: a plurality of adjustable lighting units electrically connected to the processing unit, and the processing unit further controls each of the plurality of adjustable lighting units. The brightness of one of the adjustable lighting units and/or the lighting quantity of the plurality of adjustable lighting units; wherein, the processing unit generates a lighting setting data according to the control signal, and the processing unit further controls the plurality of lighting setting data according to the lighting setting data The adjustable lighting unit controls the range, intensity and time of the surrounding environment.

In an embodiment of the control mechanism of the service range and service intensity of the electronic device of the present invention, the processing unit determines the wireless signals of a plurality of terminal mobile devices within the antenna sensing range received by the wireless communication module. Received a plurality of received signal strength indicators (Received Signal Strength Indication, RSSI), the processing unit generates the lighting setting data according to the received plurality of received signal strength indicators.

In an embodiment of the control mechanism of the service range and service intensity of the electronic equipment of the present invention, the processing unit calculates the distribution range, distribution intensity, and movement status of the plurality of terminal mobile devices according to the calculated distribution range, distribution intensity, and movement status of each terminal mobile device. The movement path of a terminal and the speed of a terminal are used for the statistics of the surrounding pedestrian flow.

In an embodiment of the control mechanism of the service range and service intensity of the electronic equipment of the present invention, the processing unit determines whether the terminal mobile device is a mobile device or a terminal based on whether the terminal mobile device has the terminal movement path and the terminal speed. Fixed equipment, and the processing unit further generates the lighting setting data according to the moving path of the terminal and the speed of the terminal.

In an embodiment of the control mechanism for the service range and service intensity of the electronic device of the present invention, the processing unit is further used to add user terminals judged to be fixed devices to the blacklist, and the terminals of the fixed devices in the blacklist are combined If it does not belong to the terminal mobile device, when the lighting setting data is generated, it does not refer to the related data of the wireless signal of the user terminal in the blacklist.

In an embodiment of the control mechanism of the service range and service intensity of the electronic device of the present invention, the processing unit calculates the flow of a group of people according to the number of the mobile devices detected within a predetermined time, and the processing unit further according to The pedestrian traffic is used to generate the lighting setting data.

In an embodiment of the control mechanism of the service range and service intensity of the electronic device of the present invention, the electronic device further includes: a support frame connected to the at least one antenna and electrically connected to the processing unit, the support frame enabling the at least one day Line movement and rotation; wherein the processing unit generates a support frame setting data and an antenna transmission power intensity setting data according to the control signal, and the processing unit further controls the support frame according to the support frame setting data to further control the at least An antenna is close to or far from the terminal Terminal mobile device, and also set the transmit power intensity of the antenna according to the antenna transmit power intensity setting data.

In an embodiment of the control mechanism of the service range and service intensity of the electronic device of the present invention, when the wireless communication module is receiving a signal from the terminal mobile device and the terminal mobile device moves relative to the at least one antenna, the processing unit In addition, the support frame is controlled to drive the at least one antenna to track the terminal mobile device.

In an embodiment of the control mechanism of the service range and service intensity of the electronic device of the present invention, when the at least one antenna tracks the terminal mobile device, the processing unit further controls the support frame to drive the at least one antenna to adjust the at least one antenna. An antenna receives a wireless signal at a receiving angle.

In an embodiment of the control mechanism of the service range and service intensity of the electronic equipment of the present invention, the wireless communication module is further used to send wireless signals to the terminal mobile device and to communicate with the terminal mobile device. When the wireless communication module sends a signal to the terminal and the terminal moves relative to the at least one antenna, the processing unit further controls the support frame to drive the at least one antenna to track the terminal.

In an embodiment of the control mechanism of the service range and service intensity of the electronic device of the present invention, when the at least one antenna tracks the terminal, the processing unit further controls the support frame to drive the at least one antenna to adjust the at least one antenna One of the transmission angle and transmission power of the wireless signal.

Compared with the prior art, the control mechanism of the service range and service intensity of the electronic device of the present invention can control the range, intensity and time of the lighting unit by the received signal intensity indicator of the terminal mobile device, which can effectively target the mobile device. High-brightness photos are taken in places with a large number of users It can also collect the location data of the mobile device to calculate traffic-related data and perform statistics. In addition, the control mechanism of the service range and service intensity of the electronic device of the present invention can also be controlled by the received signal strength index of the terminal mobile device. The rack tracks the terminal mobile device to further adjust the antenna to a position and angle that is conducive to receiving signals or conducive to sending signals.

10, 20, 30: electronic equipment

12: Antenna

12a: Antenna end

14: Wireless communication module

16: processing unit

22: Lighting assembly

22a, 22b, 22c: lighting unit

32: support frame

300, 310, 400: terminal mobile device

700: flow chart

710 to 740: steps

P1: first position

P2: second position

P3: third position

P4: Fourth position

Figure 1 is a functional block diagram of the electronic device in the control mechanism of the service range and service intensity of the electronic device of the present invention.

Figure 2 is a schematic diagram of the first embodiment of the control mechanism of the service range and service intensity of the electronic device of the present invention.

Figure 3 is a schematic diagram of the second embodiment of the control mechanism of the service range and service intensity of the electronic device of the present invention.

FIG. 4 is a schematic diagram of a support frame adjusting an antenna position of the second embodiment of the control mechanism of the service range and service intensity of the electronic device of the present invention.

FIG. 5 is a schematic diagram of the supporting frame adjusting the angle of the antenna in the second embodiment of the control mechanism of the service range and service intensity of the electronic device of the present invention.

FIG. 6 is a schematic diagram of the supporting frame adjusting the angle of the antenna in the second embodiment of the control mechanism of the service range and service intensity of the electronic device of the present invention.

Figure 7 is a flowchart of the control mechanism of the service range and service intensity of the electronic device of the present invention.

Please refer to Figure 1. Figure 1 is a functional block diagram of the control mechanism of the service range and service intensity of the electronic device of the present invention. As shown in Figure 1, the service range and service strength of the electronic device of the present invention The degree of control mechanism includes providing an electronic device 10, which includes at least one antenna 12, a wireless communication module 14, and a processing unit 16, and the electronic device 10 is used to provide a service, wherein the electronic device 10 includes an antenna 12 as an example, the antenna 12 is electrically connected to the wireless communication module 14, and the wireless communication module 14 is electrically connected to the processing unit 16. The wireless communication module 14 uses the antenna 12 to receive a wireless signal generated by a terminal mobile device 300. The terminal mobile device 300 must be located within the sensing range of the antenna 12, and the wireless communication module 14 receives the terminal mobile device 300. After the wireless signal, the processing unit 16 generates a control signal according to the wireless signal. When the processing unit 16 generates the control signal, the electronic device 10 adjusts the service intensity and service range provided by the electronic device 10 according to the control signal.

For example, please refer to Figure 2. Figure 2 is a schematic diagram of the first embodiment of the control mechanism of the service range and service intensity of the electronic device of the present invention. As shown in Figure 2, the first embodiment of the control mechanism of the service range and service intensity of the electronic device of the present invention includes providing an electronic device 20, which is similar to the electronic device 10, and also includes an antenna 12 and a wireless communication The module 14 and a processing unit 16, and the electronic device 20 further includes a lighting assembly 22 including a plurality of lighting units 22a, 22b, 22c. In this embodiment, the electronic device 20 includes three lighting units 22a, 22b, 22c , But the present invention is not limited to this. Each illuminating unit 22a, 22b, 22c is electrically connected to the processing unit 16, and the processing unit 16 can control the brightness of one of the three illuminating units 22a, 22b, 22c and/or the number of lights on the three illuminating units 22a, 22b, 22c . Similar to the electronic device 10, the wireless communication module 14 of the electronic device 20 uses the antenna 12 to receive a wireless signal generated by a terminal mobile device 300, and the processing unit 16 generates a control signal according to the wireless signal, and further according to the control The signal is used to generate a lighting setting data, and the processing unit 16 further controls the width, brightness and time of the lighting assembly 22 to illuminate the surrounding environment according to the lighting setting data. For example, the wireless communication module 14 of the electronic device 20 receives the wireless signals generated by the two terminal mobile devices 300 and 310 through the antenna 12, and the processing unit 16 determines the two terminal mobile devices 300 according to the two wireless signals. , 310 direction and distance, and generate a control signal, the processing unit 16 further according to the The control signal is used to generate a lighting setting data, wherein the processing unit 16 controls the lighting unit 22a closest to the two terminal mobile devices 300, 310 among the three lighting units 22a, 22b, 22c to illuminate with the maximum brightness according to the lighting setting data, and The lighting unit 22b slightly farther from the two terminal mobile devices 300 and 310 is controlled to illuminate with medium brightness, and the lighting unit 22c farthest from the two terminal mobile devices 300 and 310 is controlled to illuminate with the lowest brightness. Accordingly, in the first embodiment of the control mechanism of the service range and service intensity of the electronic equipment of the present invention, the wireless signals generated by the two terminal mobile devices 300 and 310 are used to determine the location-related data of the terminal mobile devices, and then adjust the lighting The three lighting units 22a, 22b, and 22c of the assembly 22 are illuminated with different brightness, so that locations with more terminal mobile devices can enjoy brighter lighting. In other words, the service range and service intensity of the electronic equipment of the present invention are different. The first embodiment of the control mechanism can control a plurality of lighting units to illuminate a place with a large number of people with high brightness, and to illuminate a place with a few people with a lower brightness to save energy, so as to further improve the lighting efficiency.

The processing unit 16 judges the received two received signal strength indicators (Received Signal Strength Indication, according to the wireless signals of the two terminal mobile devices 300 and 310 within the sensing range of the antenna 12 received by the wireless communication module 14). RSSI), the processing unit 16 generates the control signal and further generates the lighting setting data according to the two received signal strength indicators. The processing unit 16 can calculate the position of the terminal mobile device according to the received signal strength index, and can continuously track the position of the terminal mobile device to calculate the displacement direction and displacement amount of the terminal mobile device, and further calculate Based on the distribution range, distribution intensity, and movement status of all terminal mobile devices, the processing unit 16 can calculate the pedestrian flow based on the number of detected mobile devices within a predetermined period of time, and the processing unit 16 can also further based on the pedestrian flow To generate the lighting setting data. Furthermore, the movement state of the terminal mobile device calculated by the processing unit 16 includes a terminal movement path and a terminal speed, so as to perform statistics on the distribution range and quantity of the surrounding mobile vehicles (for example, based on the terminal movement path of the terminal mobile device and The terminal speed is used to determine when the user of the mobile device moves The types of transportation equipment or walking movement, and classify and count them).

In addition, the processing unit 16 can determine whether the terminal mobile device is a fixed device or a mobile device according to whether the terminal mobile device has the terminal movement path and the terminal speed, and the processing unit 16 can further determine whether the terminal mobile device is a fixed device or a mobile device. Terminal speed to generate the lighting setting data. After determining how many fixed devices and how many mobile devices are in the surrounding plurality of terminal mobile devices, the processing unit 16 can additionally be used to add the user terminals judged to be fixed devices to the blacklist, and when generating lighting setting data , Do not refer to the relevant information of the wireless signal of the user terminal in the blacklist. In other words, when there is a fixed device that can emit radio frequency signals around the electronic device 20, the electronic device 20 can receive signals from the fixed device The intensity indicators are all from the same location and the source is judged to be fixed equipment. Since fixed equipment is different from mobile devices, fixed equipment does not always accompany the user. Therefore, the electronic equipment 20 can be set to not provide lighting to the surrounding fixed equipment. In this case, the time standard for the processing unit 16 to determine the fixed device can be additionally set to prevent the user with a mobile device from being mistakenly judged as a fixed device just by fixing the position. In addition, the above-mentioned wireless signal of the terminal mobile device may be the Wi-Fi Media Access Control Address (MAC) used by the terminal mobile device or the Bluetooth (Bluetooth) of the terminal used by the terminal. Device address (Bluetooth Device Address).

According to the above configuration, the first embodiment of the control mechanism for the service range and service intensity of the electronic device of the present invention can control the electronic device 20 so that the electronic device 20 can receive the output generated by the two terminal mobile devices 300, 310 through the antenna 12 After the wireless signal is processed by the wireless communication module 14 with the processing unit 16, a lighting setting data is generated for the processing unit 16 to control the lighting assembly 22 of the electronic device 20, so that the lighting units 22a, 22b, 22c can be targeted for actions Places with more device users should be illuminated with high brightness, while locations with fewer mobile device users should be illuminated with lower brightness to save Energy to improve lighting efficiency. Moreover, the processing unit 16 can calculate the displacement direction and displacement of the mobile device by using the received signal strength index of the mobile device, and further calculate the distribution range, distribution intensity and intensity of all terminal mobile devices. The movement status is used to calculate the surrounding pedestrian traffic and the distribution range and quantity of mobile vehicles. In other words, the first embodiment of the control mechanism of the service range and service intensity of the electronic device of the present invention can enable the electronic device 20 to be efficient For locations with more mobile device users, high-brightness lighting is provided, and the location data of mobile devices can be collected for traffic-related data statistics.

In addition, the control mechanism of the service range and service intensity of the electronic device of the present invention can also be used to control the antenna. For example, please refer to Figure 3, which is one of the control mechanisms of the service range and service intensity of the electronic device of the present invention. Schematic diagram of the second embodiment. As shown in Figure 3, the first embodiment of the control mechanism of the service range and service intensity of the electronic device of the present invention includes providing an electronic device 30, which is similar to the electronic device 10, and also includes an antenna 12 and a wireless communication module. Group 14 and a processing unit 16, and the electronic device 30 further includes a support frame 32 connected to the antenna 12 and electrically connected to the processing unit 16. In this embodiment, the electronic device 30 includes a support frame 32 connected to an antenna 12, but the present invention Not limited to this, the electronic device 30 may include a plurality of supporting frames 32 respectively correspondingly connected to a plurality of antennas 12. The wireless communication module 14 of the electronic device 30 can also be used to communicate with a terminal mobile device 400. The support frame 32 can move and rotate the antenna 12, and the processing unit 16 generates a support frame setting data and a day according to a control signal. Line transmission power intensity setting data, and the processing unit 16 further controls the support frame 32 according to the support frame setting data to further control the antenna 12 to approach or move away from the terminal mobile device 400. At the same time, the processing unit 16 further sets according to the antenna transmission power intensity The data is used to set the transmit power intensity of the antenna 12. Please refer to FIGS. 3 and 4. FIG. 4 is a schematic diagram of a support frame adjusting an antenna position of the second embodiment of the control mechanism of the service range and service intensity of the electronic device of the present invention. As shown in the figure, when the terminal mobile device 400 is located at a first position P1, the processing unit 16 depends on the terminal received by the wireless communication module 14 and the antenna 12 The wireless signal of the mobile device 400 is used to determine the received signal strength index of the terminal mobile device 400, and the processing unit 16 generates the control signal according to the received signal strength index and further generates a support frame setting data and an antenna transmission power strength setting data, The processing unit 16 controls the support frame 32 according to the support frame setting data to further position the antenna 12 at a second position P2, and sets the transmission power intensity of the antenna 12 according to the antenna transmission power intensity setting data. In this embodiment, the first The second position P2 is the position closest to the first position P1 within the movable range of the support frame 32, but the present invention is not limited to this. The support frame 32 can move the antenna 12 to any position that is conducive to receiving signals or conducive to sending signals. . When the terminal mobile device 400 is located at a third position P3 after moving relative to the electronic device 30, similarly, the processing unit 16 determines the terminal mobile device according to the wireless signal of the terminal mobile device 400 received by the wireless communication module 14 and the antenna 12 400, the processing unit 16 generates the control signal according to the received signal strength index and further generates a support frame setting data and an antenna transmission power strength setting data, and the processing unit 16 controls the support according to the support frame setting data Frame 32 to further position the antenna 12 at a fourth position P4, and set the transmit power intensity of the antenna 12 according to the antenna transmit power intensity setting data. In this embodiment, the fourth position P4 is within the movable range of the support frame 32 The position closest to the third position P3, but the present invention is not limited to this. The support frame 32 can move the antenna 12 to any position that is good for receiving signals or good for transmitting signals. In other words, when the wireless communication module 14 is receiving a signal from the terminal mobile device 400 (or sending a signal to the terminal mobile device 400) and the terminal mobile device 400 moves relative to the antenna 12, the processing unit 16 further controls the support frame 32 to drive the antenna 12 The terminal mobile device 400 is tracked to move the antenna 12 to a position favorable for receiving signals or favorable for transmitting signals.

In addition, the second embodiment of the control mechanism of the service range and service intensity of the electronic device of the present invention can also control the antenna to adjust the receiving angle and the transmitting angle of the antenna. Please refer to Figs. 5 and 6. 5 and 6 are schematic diagrams of adjusting the angle of the antenna by the support frame of the second embodiment of the control mechanism of the service range and service intensity of the electronic device of the present invention. As shown in the figure, when the terminal mobile device 400 When communicating with the electronic device 30 and the angle between the antenna 12 and the mobile device 400 is a first angle θ1, similarly, the processing unit 16 depends on the wireless communication module 14 and the terminal mobile device 400 received by the antenna 12 Wireless signal to determine the received signal strength index of the terminal mobile device 400, the processing unit 16 generates the control signal according to the received signal strength index, and further generates a support frame setting data and an antenna transmission power strength setting data, when the processing unit 16 When the support frame 32 is controlled according to the support frame setting data to further track the terminal mobile device 400, the processing unit 16 further controls the support frame 32 to drive the antenna 12 to adjust the angle between the antenna 12 and the mobile device 400 to a second angle θ 2 In this embodiment, the second angle θ 2 is the angle at which an antenna end 12a of the antenna 12 is closest to the terminal mobile device 400 within the adjustable range of the support frame 32, but the present invention is not limited to this, the support frame 32 The angle between the connection between the antenna 12 and the mobile device 400 can be adjusted to any angle that is beneficial for receiving signals or for transmitting signals. In addition, in this example, the supporting frame 32 of the electronic device 30 can enable the antenna 12 to track a terminal mobile device 400, but the present invention is not limited to this. When there are a plurality of terminal mobile devices around the electronic device 30, the electronic device 30 The support frame 32 can also enable the antenna 12 to track the locations where the terminal mobile devices are densest. The processing unit 16 further calculates the locations where the terminal mobile devices are densest according to the received signal strength index. In addition, in another embodiment of the present invention, the support frame 32 may also not need to move or rotate, and the processing unit 16 is further used to adjust the direction of the signal sent by the directional antenna, so as to track the terminal mobile device 400 or track the most dense terminal mobile device Location.

According to the above configuration, the second embodiment of the control mechanism of the service range and service intensity of the electronic device of the present invention can control the electronic device 30 so that the electronic device 30 can receive the wireless signal generated by the terminal mobile device 400 through the antenna 12, After the wireless communication module 14 uses the processing unit 16 to process the data, a support frame setting data and an antenna transmission power intensity setting data are generated to control the support frame 32 of the electronic device 20. When the terminal mobile device 400 moves relative to the electronic device 30 , The support frame 32 can track the terminal mobile device 400, and adjust the position of the antenna 12 and the angle of the connection with the mobile device 400 to The antenna 12 is further adjusted to a position and angle favorable for receiving signals or favorable for transmitting signals.

Please refer to Fig. 7, which is a flowchart 700 of the control mechanism of the service range and service intensity of the electronic device of the present invention. The flow of the control mechanism of the service range and service intensity of the electronic device of the present invention is as follows: Step 710: Provide an electronic device including at least one antenna, a wireless communication module, and a processing unit, the wireless communication module The at least one antenna and the processing unit are electrically connected, and the electronic device is used to provide a service; Step 720: The wireless communication module uses the at least one antenna to receive wireless generated by a terminal mobile device within the sensing range of the antenna Signal; Step 730: The processing unit generates a control signal according to the wireless signal; and Step 740: The electronic device adjusts the service intensity and service range provided by the electronic device according to the control signal.

Compared with the prior art, the control mechanism of the service range and service intensity of the electronic device of the present invention can control the range, intensity and time of the lighting unit by the received signal intensity indicator of the terminal mobile device, which can effectively target the mobile device. Places with more users are illuminated with high brightness, and the location data of mobile devices can be collected to calculate traffic-related data and perform statistics. In addition, the control mechanism of the service range and service intensity of the electronic equipment of the present invention can also be controlled by the terminal The received signal strength index of the mobile device is used to control the support frame to track the terminal mobile device, so as to further adjust the antenna to a position and angle favorable for receiving signals or for transmitting signals.

The foregoing descriptions are only preferred embodiments of the present invention, and all equivalent changes and modifications made in accordance with the scope of the patent application of the present invention shall fall within the scope of the present invention.

10: Electronic equipment

12: Antenna

14: Wireless communication module

16: processing unit

300: terminal mobile device

Claims (16)

A control mechanism for the service range and service intensity of an electronic device. The electronic device includes at least one antenna, a wireless communication module and a processing unit. The electronic device is used to provide a service. The service range and service intensity of the electronic device are controlled The mechanism includes: the wireless communication module is electrically connected to the at least one antenna and the processing unit; the wireless communication module receives the wireless signal generated by a terminal mobile device within the sensing range of the antenna through the at least one antenna; the processing The unit generates a control signal according to the wireless signal; and the electronic device adjusts the service intensity and service range provided by the electronic device according to the control signal; wherein the processing unit according to the antenna sensing range received by the wireless communication module To determine the received multiple received signal strength indicators (RSSI) of the wireless signals of a plurality of terminal mobile devices within, the processing unit generates the control signal according to the received multiple received signal strength indicators; The processing unit calculates the distribution range, distribution intensity, and movement status of the terminal mobile device based on the received signal strength index; wherein the processing unit calculates the distribution range, distribution strength, and distribution range of the plurality of terminal mobile devices based on the calculation. Movement status, calculating a terminal movement path of each terminal mobile device and a terminal speed to make statistics of surrounding pedestrian flow; wherein the processing unit determines the type of vehicle used when the user of the mobile device moves based on the terminal speed Or move on foot to calculate the distribution and quantity of the surrounding mobile vehicles. The control mechanism for the service range and service intensity of electronic equipment as described in claim 1, wherein The wireless signal of the terminal mobile device is the signal carrying the Wi-Fi Media Access Control Address (MAC) used by the terminal mobile device or the Bluetooth signal used by the terminal mobile device ( The Bluetooth device address (Bluetooth Device Address) signal. The control mechanism for the service range and service intensity of an electronic device according to claim 1, the electronic device further includes: a plurality of adjustable lighting units electrically connected to the processing unit, and the processing unit further controls the plurality of adjustable lighting units A brightness and/or the number of lighting of the plurality of adjustable lighting units; wherein, the processing unit generates a lighting setting data according to the control signal, and the processing unit further controls the plurality of adjustable lightings according to the lighting setting data The unit controls the range, intensity and time of illumination of the surrounding environment. According to the control mechanism of the service range and service intensity of the electronic equipment according to claim 3, the processing unit judges the received wireless signals according to the wireless signals of a plurality of terminal mobile devices within the antenna sensing range received by the wireless communication module Received Signal Strength Indication (RSSI), the processing unit generates the lighting setting data according to the received signal strength indicators. The control mechanism for the service range and service intensity of an electronic device according to claim 4, wherein the processing unit calculates the distribution range, distribution intensity, and movement status of the received mobile device according to the received signal strength index. The control mechanism for the service range and service intensity of electronic equipment as described in claim 5, wherein The processing unit calculates a terminal movement path and a terminal speed of each terminal mobile device according to the calculated distribution range, distribution intensity, and movement state of the plurality of terminal mobile devices, so as to calculate the surrounding pedestrian traffic. The control mechanism for the service range and service intensity of the electronic equipment according to claim 6, wherein the processing unit determines whether the terminal mobile device is a mobile device or a mobile device according to whether the terminal mobile device has the terminal moving path and the terminal speed. Fixed equipment, and the processing unit further generates the lighting setting data according to the moving path of the terminal and the speed of the terminal. The control mechanism for the service range and service intensity of electronic equipment according to claim 7, wherein the processing unit is further used to add user terminals judged to be fixed equipment to the blacklist, and the terminals of the fixed equipment in the blacklist are combined If it does not belong to the terminal mobile device, when the lighting setting data is generated, it does not refer to the related data of the wireless signal of the user terminal in the blacklist. The control mechanism for the service range and service intensity of the electronic equipment according to claim 8, wherein the processing unit calculates the flow of a group of people according to the number of the mobile devices detected within a predetermined time, and the processing unit further according to The pedestrian traffic is used to generate the lighting setting data. According to the control mechanism of the service range and service intensity of the electronic device according to claim 1, the electronic device further includes: a support frame connected to the at least one antenna and electrically connected to the processing unit, and the support frame enables the at least one antenna Move and rotate; wherein the processing unit generates a support frame setting data and an antenna transmission power intensity setting data according to the control signal, and the processing unit further controls the support frame according to the support frame setting data, To further control the at least one antenna to approach or to be far away from the terminal mobile device, and to set the transmit power intensity of the antenna according to the antenna transmit power intensity setting data. According to the control mechanism of the service range and service intensity of the electronic equipment according to claim 10, the processing unit determines the terminal action according to the wireless signal of the terminal mobile device within the antenna sensing range received by the wireless communication module A Received Signal Strength Indication (RSSI) of the device, the processing unit generates the support frame setting data and the antenna transmit power intensity setting data according to the received signal strength indicator. The control mechanism for the service range and service intensity of an electronic device according to claim 11, wherein when the wireless communication module is receiving a signal from the terminal mobile device and the terminal mobile device moves relative to the at least one antenna, the processing unit In addition, the support frame is controlled to drive the at least one antenna to track the terminal mobile device. The control mechanism for the service range and service intensity of an electronic device according to claim 12, wherein when the at least one antenna tracks the terminal mobile device, the processing unit further controls the support frame to drive the at least one antenna to adjust the at least one antenna An antenna receives a wireless signal at a receiving angle. The control mechanism for the service range and service intensity of the electronic equipment according to claim 10, wherein the wireless communication module is further used to send wireless signals to the terminal mobile device and to communicate with the terminal mobile device, when the When the wireless communication module sends a signal to the terminal and the terminal moves relative to the at least one antenna, the processing unit further controls the support frame to drive the at least one antenna to track the terminal. The control mechanism for the service range and service intensity of an electronic device according to claim 14, wherein when the at least one antenna tracks the terminal, the processing unit further controls the support frame to drive the at least one antenna to adjust the at least one antenna One of the transmission angle and transmission power of the wireless signal. According to the control mechanism for the service range and service intensity of the electronic device in claim 10, the support frame does not move or rotate, and the processing unit is further used to adjust the direction of the antenna sending signals to track the terminal.

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