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CN-122018369-A - Intelligent system adjusting method and equipment

CN122018369ACN 122018369 ACN122018369 ACN 122018369ACN-122018369-A

Abstract

The application relates to the field of intelligent systems, and provides a method and equipment for adjusting an intelligent system, wherein the method comprises the steps of obtaining a position signal of a target object; and acquiring a real-time operation value of the target controller, and adjusting the real-time operation value of the target controller to keep consistent with a standard operation value when the real-time operation value is inconsistent with the preset standard operation value. The intelligent system adjusting method provided by the scheme of the application can realize intelligent adjustment of the intelligent system, so that the intelligent system can realize full-automatic light following and constant illumination adjustment.

Inventors

  • FAN CHENGHUA
  • XIAO LIMEI

Assignees

  • 成都圣路电器有限公司

Dates

Publication Date
20260512
Application Date
20260130

Claims (10)

  1. 1. A method for regulating an intelligent system, comprising: Acquiring a position signal of a target object; Controlling the target controllers within a set distance or quantity around the target object to work based on the position signals; And acquiring a real-time operation value of the target controller, and adjusting the real-time operation value of the target controller to keep consistent with the standard operation value when the real-time operation value is inconsistent with the preset standard operation value.
  2. 2. The method of claim 1, wherein the intelligent system comprises: Each equipment end comprises a plurality of detection devices and a plurality of target controllers which are in one-to-one correspondence with the detection devices; The detection device is used for acquiring a position signal of the target object; when the target object does not exist, the signal state of the detection device is set to 0, the corresponding target equipment end does not generate a trigger signal, and the target controller corresponding to the detection device operates according to a static value; The step of controlling the target controllers within a set distance or within a set number around the target object to work based on the position signals comprises the following steps: When the target object exists, the signal state of the detection device is set to be 1, the corresponding target equipment end generates a trigger signal, and under the triggering of the trigger signal, the target controllers corresponding to the detection device and the target controllers within the set distance or the set number of the periphery corresponding to the target controllers are adjusted to be following values by static values.
  3. 3. The method according to claim 2, wherein under the triggering of the triggering signal, the target controllers corresponding to the target detection device and the target controllers within a set distance or a set number of the peripheral set distance corresponding to the target controllers are adjusted from a static value to a following value, and further comprising: after stopping receiving the position signal of the target object, setting the signal state of the detection device to 0; And after the signal state of the detection device is set to 0, controlling the target controllers and the target controllers within the peripheral set distance or the number corresponding to the target controllers to maintain the following value operation within the set time length. And after the set time length is over, controlling the target controllers and the target controllers within the set peripheral distance or the set number corresponding to the target controllers to operate from the following value to the static value.
  4. 4. The method of claim 1, wherein the intelligent system comprises: The cloud platform comprises a user end, a cloud platform, a plurality of equipment ends, a plurality of detection devices and a plurality of target controllers, wherein the equipment ends comprise a communication module, a conversion module, an operation module, a judging module, a processing module, an instruction module, an alarm module block and an execution model, and the detection devices are used for acquiring position signals of target objects; The plurality of equipment ends are numbered according to the sequence of the first equipment end, the second equipment end, the third equipment end and the third equipment end; numbering the plurality of detection devices of the plurality of equipment ends according to the sequence of the first detection device, the second detection device, the third detection device and the third detection device; numbering the plurality of target controllers of the plurality of equipment ends in the order of a first controller, a second controller, a third controller and an. Setting parameters M, N, E, E, T at a user end, wherein M is M target controllers calculated from a trigger target controller to a direction with a small number, N is N target controllers calculated from the trigger target controller to a direction with a large number, E is a following value, E0 is a static value, and T is a set duration; The step of controlling the target controllers within a set distance or within a set number around the target object to work based on the position signals comprises the following steps: when the target object does not exist, the signal state of the detection device is set to 0, the corresponding target equipment end does not generate a trigger signal, and the target controller corresponding to the detection device operates according to a static value; When the detection device detects that the target object exists, setting the signal state of the detection device to be 1, and generating a trigger signal by a target equipment end corresponding to the detection device; Under the triggering of the triggering signal, the target controller corresponding to the detection device is triggered; under the triggering of the triggering signal, the target controller and M+N target controllers around the target controller are triggered, and 1+M+N target controllers are adjusted to follow value E from static value E0 to run; After the detection device signal is in the 1 state, the triggered 1+M+N target controllers continue to run according to the following value E in a delayed mode, and the triggered 1+M+N target controllers are adjusted to run with a static value E0 by the following value E; when the system is resampled, the system continues to operate as described above.
  5. 5. The method for adjusting an intelligent system according to claim 1, wherein the obtaining the real-time operation value of the target controller, and when the real-time operation value is inconsistent with a preset standard operation value, adjusting the real-time operation value of the target controller to be consistent with the standard operation value, comprises: Acquiring a real-time operation value of a monitored point through a detection device; when the real-time operation value is inconsistent with the standard operation value, sending an adjusting signal to the target controller of the monitored point; and under the triggering of the regulating signal, regulating the output operation value of the target controller to keep consistent with the standard operation value.
  6. 6. The method of claim 5, wherein said sending an adjustment signal to said target controller of said monitored point when said real-time operating value is inconsistent with said standard operating value comprises: comparing the standard operation value with the real-time operation value to obtain a comparison value; determining a feedback value based on the comparison value; and sending out an adjusting signal to the target controller of the monitored point based on the feedback value so as to keep consistent with the standard running value.
  7. 7. The method of claim 1, wherein the intelligent system comprises: The cloud platform comprises a user end, a cloud platform, a plurality of equipment ends, a plurality of detection devices and a plurality of target controllers, wherein the equipment ends comprise a communication module, a conversion module, an operation module, a judging module, a processing module, an instruction module, an alarm module block and an execution model; Presetting a standard operation value G0, an operation threshold G1 and a sampling time Deltat at a user side; Acquiring a real-time running value Gt of a monitored point by using the detection device; Comparing the preset standard operation value G0 with the real-time operation value Gt to obtain a comparison value delta G, wherein delta G=G0-Gt; when the comparison value delta G is larger than or equal to an operation threshold G1, displaying a real-time operation value Gt at a user side, and outputting an execution instruction value U+delta U, wherein U is the execution instruction value corresponding to the real-time operation value Gt, and delta U is the execution instruction value corresponding to the comparison value delta G; the execution instruction value U+DeltaU adjusts the output of the target controller; The output of the target controller adjusts the running value output Gt+DeltaG of the target controller; maintaining the operating value output gt+Δg consistent with the standard operating value G0, wherein gt+Δg=gt+g0-gt=g0; when the comparison value delta G is smaller than or equal to an operation threshold G1, not giving an alarm and not outputting an execution instruction value U+delta U; When sampling is carried out again after the sampling time delta t of the system, the system continues to operate according to the logic; When the absolute value delta G of the comparison value delta G is larger than or equal to an operation threshold G1, displaying a real-time operation value Gt at a user side, and outputting an execution instruction value U+delta U, wherein U is the execution instruction value corresponding to the real-time operation value Gt, and delta U is the execution instruction value corresponding to the comparison value delta G; the execution instruction value U+DeltaU adjusts the output of the target controller; The output of the target controller adjusts the running value output Gt+DeltaG of the target controller; maintaining the operating value output gt+Δg consistent with the standard operating value G0, wherein gt+Δg=gt+g0-gt=g0; When the absolute value delta G of the comparison value delta G is smaller than or equal to an operation threshold G1, no alarm is given and no execution instruction value U+delta U is output; When sampling is carried out again after the sampling time delta t of the system, the system continues to operate according to the logic; When the comparison value delta G is larger than or equal to an operation threshold G1, displaying a real-time operation value Gt at a user side, and outputting an execution instruction value U+delta U, wherein U is the execution instruction value corresponding to the real-time operation value Gt, and delta U is the execution instruction value corresponding to the comparison value delta G; the execution instruction value U+DeltaU adjusts the output of the target controller; The output of the target controller adjusts the running value output Gt+DeltaG of the target controller; maintaining the operating value output gt+Δg consistent with the standard operating value G0, wherein gt+Δg=gt+g0-gt=g0; when the comparison value delta G is smaller than or equal to an operation threshold G1, not giving an alarm and not outputting an execution instruction value U+delta U; and when sampling is performed again after the sampling time delta t of the system, the system continues to operate according to the logic.
  8. 8. The method for intelligent system according to claim 7, characterized by further comprising: Placing the detection device at a monitored point, obtaining an output V of a conversion module end, placing a standard instrument at the same monitored point, reading an operating value G of the standard instrument, calculating a detection device coefficient K of the detection device, wherein K=V/G, and completing calibration of the detection device coefficient K of the detection device; And presetting the detection device coefficient K at a user side.
  9. 9. The method for adjusting an intelligent system according to claim 8, characterized by comprising the following steps: Presetting a standard operation value G0, an operation threshold G1, sampling time Deltat and a detection device coefficient K at a user side; Acquiring a real-time running value Gt of a monitored point by using the detection device; the real-time running value Gt outputs Vt through the conversion module, wherein vt=k Gt, the standard running value G0 is output V0 by the operation module, wherein V0 = K G0, the operation threshold G1 outputs V1 through the operation module, wherein v1=k G1; Comparing the V0 with the Vt to obtain a comparison value Δv, wherein Δv=v0-Vt; when the comparison value delta V is larger than or equal to an operation threshold V1, displaying a real-time operation value Gt at a user side, and outputting an execution instruction value U+delta U, wherein U is the execution instruction value corresponding to Vt, and delta U is the execution instruction value corresponding to the comparison value delta V; the execution instruction value U+DeltaU adjusts the output of the target controller; the output of the target controller regulates the running value output Gt+DeltaG of the target controller, wherein U is an executing instruction value corresponding to the real-time running value Gt, deltaU is an executing instruction value corresponding to the contrast value DeltaG; maintaining the operating value output gt+Δg consistent with the standard operating value G0, wherein gt+Δg=gt+g0-gt=g0; when the comparison value delta V is smaller than or equal to the operation threshold V1, the execution command value U+delta U is not output; When sampling is carried out again after the sampling time delta t of the system, the system continues to operate according to the logic; when the absolute value of the contrast value DeltaV is larger than or equal to an operation threshold V1, displaying a real-time operation value Gt at a user side, and outputting an execution instruction value U+DeltaU, wherein U is the execution instruction value corresponding to Vt, and DeltaU is the execution instruction value corresponding to the contrast value DeltaV; the execution instruction value U+DeltaU adjusts the output of the target controller; the output of the target controller regulates the running value output Gt+DeltaG of the target controller, wherein U is an executing instruction value corresponding to the real-time running value Gt, deltaU is an executing instruction value corresponding to the contrast value DeltaG; maintaining the operating value output gt+Δg consistent with the standard operating value G0, wherein gt+Δg=gt+g0-gt=g0; when the absolute value delta V of the comparison value delta V is smaller than or equal to an operation threshold V1, an execution instruction value U+delta U is not output; When sampling is carried out again after the sampling time delta t of the system, the system continues to operate according to the logic; When the comparison value DeltaV is larger than or equal to an operation threshold V1, displaying a real-time operation value Gt at a user side, and outputting an execution instruction value U+DeltaU, wherein U is the execution instruction value corresponding to Vt, and DeltaU is the execution instruction value corresponding to the comparison value DeltaV; the execution instruction value U+DeltaU adjusts the output of the target controller; the output of the target controller regulates the running value output Gt+DeltaG of the target controller, wherein U is an executing instruction value corresponding to the real-time running value Gt, deltaU is an executing instruction value corresponding to the contrast value DeltaG; maintaining the operating value output gt+Δg consistent with the standard operating value G0, wherein gt+Δg=gt+g0-gt=g0; When the comparison value DeltaV is smaller than or equal to an operation threshold V1, the execution instruction value U+DeltaU is not output; and when sampling is performed again after the sampling time delta t of the system, the system continues to operate according to the logic.
  10. 10. An electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, characterized in that the processor implements the adjustment method of the intelligent system according to any of claims 1-9 when executing the program.

Description

Intelligent system adjusting method and equipment Technical Field The present invention relates to the field of intelligent systems, and in particular, to a method and an apparatus for adjusting an intelligent system. Background Intelligent systems are an important component in modern society, and today's intelligent systems are advancing toward full intelligence. However, the intelligent system in the related art is still insufficient in intelligence degree, and cannot meet the needs of users. Disclosure of Invention The application provides a method and equipment for adjusting an intelligent system, which are used for solving the defect of insufficient intelligent degree of the intelligent system in the related technology. The invention provides an intelligent system adjusting method, which comprises the following steps: Acquiring a position signal of a target object; Controlling the target controllers within a set distance or quantity around the target object to work based on the position signals; And acquiring a real-time operation value of the target controller, and adjusting the real-time operation value of the target controller to keep consistent with the standard operation value when the real-time operation value is inconsistent with the preset standard operation value. According to the adjusting method of the intelligent system provided by the invention, the intelligent system comprises the following steps: Each equipment end comprises a plurality of detection devices and a plurality of target controllers which are in one-to-one correspondence with the detection devices; The detection device is used for acquiring a position signal of the target object; When the target object does not exist, the signal state of the detection device is set to 0, the corresponding target equipment end does not generate a trigger signal, and a target controller corresponding to the target detection device operates according to a static value; The step of controlling the target controllers within a set distance or within a set number around the target object to work based on the position signals comprises the following steps: When the target object exists, the signal state of the detection device is set to be 1, the corresponding target equipment end generates a trigger signal, and under the triggering of the trigger signal, the target controllers corresponding to the target detection device and the target controllers within the set distance or the set number of the periphery corresponding to the target controllers are adjusted to be following values by static values. According to the method for adjusting an intelligent system provided by the invention, under the triggering of the triggering signal, the target controllers corresponding to the target detection device and the target controllers within the set distance or the set number of the periphery corresponding to the target controllers are adjusted from a static value to a following value, and then the method further comprises the following steps: After stopping receiving the position signal of the target object, setting the signal state of the target detection device to 0; And after the signal state of the target detection device is set to 0, controlling the target controllers and the target controllers within the peripheral set distance or the number corresponding to the target controllers to maintain the following value operation within the set time length. And after the set duration is over, controlling the target controllers and the target controllers within the set peripheral distance or the set peripheral number to operate by adjusting the following value to a static value. According to the adjusting method of the intelligent system provided by the invention, the intelligent system comprises the following steps: The cloud platform comprises a user end, a cloud platform, a plurality of equipment ends, a plurality of detection devices and a plurality of target controllers, wherein the equipment ends comprise a communication module, a conversion module, an operation module, a judging module, a processing module, an instruction module, an alarm module block and an execution model, and the detection devices are used for acquiring position signals of target objects; The plurality of equipment ends are numbered according to the sequence of the first equipment end, the second equipment end, the third equipment end and the third equipment end; numbering the plurality of detection devices of the plurality of equipment ends according to the sequence of the first detection device, the second detection device, the third detection device and the third detection device; numbering the plurality of target controllers of the plurality of equipment ends in the order of a first controller, a second controller, a third controller and an. Setting parameters M, N, E, E, T at a user end, wherein M is M target controllers calculated from a trigger target controller to a direction wit