CN115190146A - Sports place management method based on Internet of things platform - Google Patents

Abstract

The embodiment of the invention discloses a sport place management method based on an Internet of things platform, and relates to the technical field of Internet of things platforms. The method comprises the following steps: acquiring the number of people in a sport place in real time; and controlling the number of the lighting equipment and various sensors arranged on the basis of the platform of the Internet of things in the sport place to be started, so that the number of the lighting equipment and the sensors is adapted to the number of people in the sport place at the current moment. The invention effectively improves the management efficiency, reduces the energy consumption and saves the labor cost of managers.

Description

Sports place management method based on Internet of things platform

Technical Field

The invention belongs to the technical field of Internet of things platforms, and particularly relates to a sport place management method based on an Internet of things platform.

Background

With the continuous acceleration of the pace of life, people often choose to relax themselves by doing exercises under the condition of very high social pressure, so that the health level of the people is improved; meanwhile, the exercise can improve the attention, memory, reaction, thinking, imagination and other abilities of people, and can promote the intelligence development of children and teenagers. The brain of a person who exercises frequently secretes peptides which can govern the psychology and behavior of the person, so that the mind of the person is stimulated, and the unfavorable emotions of annoyance, uneasiness, lonely, self base and the like are relieved, so that the mood of the person becomes very good, and the person continues to have energy to do the following things and work.

In order to obtain a good sports environment, more and more people go to a basketball court, a soccer court, a tennis court, or the like having good environmental facilities to exercise. As the number of people going to a sport area increases, higher demands are also placed on the management of the sport area. The existing sport place management method basically depends on manpower to carry out supervision management, for example, when the people in the sport place are found to be fewer in morning routing inspection, the working number of lighting equipment can be properly reduced, and some sensors (temperature, humidity and the like) are turned off, so that the operation cost is reduced. However, the condition of missed inspection is inevitable in manpower supervision and management, the working efficiency is low, the operation labor cost investment is high, and the operation cost is high.

Disclosure of Invention

In view of this, the embodiment of the present invention provides an exercise location management method based on an internet of things platform, which is used for solving the problems of poor management efficiency and high labor cost of the existing exercise location management method. According to the intelligent control system, the number of the lighting equipment and various sensors arranged on the basis of the platform of the Internet of things can be controlled according to the number of people in a sport place, so that the number of the lighting equipment and various sensors can be controlled to be started, the management efficiency is improved, and the labor cost of managers is saved.

The embodiment of the invention provides a sport place management method based on an Internet of things platform, which comprises the following steps:

acquiring the number of people in a sport place in real time;

and controlling the number of the lighting equipment and various sensors arranged in the sport place based on the Internet of things platform to be started, so that the lighting equipment and various sensors are adapted to the number of the people in the sport place at the current moment.

In an optional embodiment, the acquiring the number of people in the sport site in real time includes:

acquiring images in a sport place in real time;

and detecting the number of people in the image in the motion place according to a preset people target detection algorithm, wherein the number of people in the motion place is used as the number of people in the motion place at the current moment.

In an optional embodiment, the acquiring the number of people in the sport site in real time includes:

acquiring the number of people entering/leaving the sports place when the door of the sports place is opened every time from the moment when the door of the sports place is opened on the same day;

and counting the number of people in the sports place at the current moment in real time according to the number of people entering/leaving the sports place when the door of the sports place is opened every time.

In an optional embodiment, the obtaining of the number of people entering/leaving the sports field at each door opening of the sports field includes:

the event that a person enters the sport place is known through a first card swiping machine installed outside a doorway of the sport place, or the event that the person leaves the sport place is known through a second card swiping machine installed inside the doorway of the sport place;

when an event that people enter/leave the sport place is known, sensing the number of the people entering/leaving the sport place in the door opening process through an infrared sensing device arranged on a door frame of the sport place within preset door opening time;

the method for counting the number of the personnel in the sports place at the current moment in real time according to the number of the personnel entering/leaving the sports place when the door of the sports place is opened at each time comprises the following steps:

counting the number of people in the sport place at the current moment according to a first formula;

wherein the first formula is:

wherein N (t) represents the number of people in the sport place at the moment t; t represents the current time; t is t ₀ Representing the moment of opening the door on the day of the sport area; x (t) ₀ → t) from t ₀ The total number of times of card swiping of the first card swiping machine between the moment and the t moment; y (t) ₀ → t) denotes from t ₀ The total number of times of swiping the card by the second card swiping machine between the moment and the t moment; c, T _i (x) -represents from t ₀ The number of people entering the movement place, which are sensed by the infrared sensing device, in the preset door opening time after the x-th card swiping and door opening of the first card swiping machine is performed between the moment and the t moment; c, T _j (y) -denotes a number from t ₀ And the number of people leaving the sport place is sensed by the infrared sensing device within preset door opening time after the second card swiping machine is swiped for the y time between the moment and the t moment.

In an optional embodiment, the controlling the number of the lighting devices and the various sensors arranged in the sport place based on the internet of things platform to be turned on includes:

acquiring the illumination intensity in the sport place at the current moment through a light sensor which is arranged in the sport place in advance;

according to the number of people and the illumination intensity in the sport place at the current moment, the control number of the lighting devices in the sport place at the current moment is calculated based on a second formula;

calculating the maximum opening number of each type of sensor in the motion place at the current moment based on a third formula according to the number of people in the motion place at the current moment;

controlling the turn-on number of the lighting devices arranged on the basis of the Internet of things platform in the sport place to be the turn-on control number of the lighting devices in the sport place at the current moment, and simultaneously controlling the turn-on number of each type of sensors arranged on the basis of the Internet of things platform in the sport place not to exceed the maximum turn-on number;

wherein the second formula is:

in a second formula, m (t) represents the control number of the lighting devices in the motion place at the current moment; m represents the total number of lighting devices in the sport field; e (t) represents the illumination intensity value in the sport field at the current moment; e ₀ Representing predetermined illumination intensity values that may be provided by individual lighting devices within the sport area; min, representing that the minimum value of the numerical values at the left end and the right end of a comma in brackets is obtained; max, representing the maximum value of the values at the left and right ends of the comma in the bracket;

the third formula is:

in a third formula, b (t _ a) represents the maximum opening number of the class a sensors in the motion place at the current moment; b is _max (a) Representing a total number of class a sensors disposed within the sport area; p represents a total number of categories of sensor categories disposed within the sport area;

the expression that the value of a is taken from 1 to P to obtain B _max (a) The maximum value of (a); INT + indicates rounding the number in parentheses.

In an optional embodiment, the various sensors and lighting devices arranged on the basis of the platform of the internet of things are uniformly arranged in the sport place;

the control lighting apparatus that the quantity of opening based on thing networking platform was arranged in the motion place is the control number that lighting apparatus opened in the motion place of present moment, controls simultaneously every type of sensor that the quantity of opening based on thing networking platform was arranged in the motion place does not exceed the maximum quantity of opening, includes:

controlling m (t) lighting devices which are uniformly distributed in the motion place to be started, and simultaneously controlling c (t _ a) sensors which are uniformly distributed in a class a sensor which is arranged in the motion place to be started; where c (t _ a) < b (t _ a).

In an optional embodiment, after the controlling the turn-on number of the lighting devices arranged in the sport field based on the internet of things platform to be the control number of the lighting devices turned on in the sport field at the current moment, and controlling the turn-on number of each type of sensor arranged in the sport field based on the internet of things platform not to exceed the maximum turn-on number, the method further includes:

and providing the control number of the lighting devices in the sport field at the current moment and the maximum starting number of each type of sensors in the sport field at the current moment to a control terminal of the sport field.

In an alternative embodiment, the sensor comprises: one or more of a light sensor, a temperature sensor, a humidity sensor and a pressure sensor.

In an optional embodiment, the controlling the number of the lighting devices and the various sensors arranged in the sport area based on the platform of the internet of things, further includes:

in the process of controlling the lighting equipment and various sensors to be started, if any lighting equipment or sensor cannot be normally started, the fault information of the corresponding lighting equipment or sensor is sent to maintenance personnel in the sport place.

According to the movement place management method based on the Internet of things platform, the number of people in a movement place is obtained in real time, then the number of the lighting devices and various sensors arranged in the movement place based on the Internet of things platform are controlled to be started, so that the number of the lighting devices and various sensors is matched with the number of people in the movement place at the current moment, the number of the intelligent control devices is started, the management efficiency and level are improved, and the labor cost of managers is saved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a flowchart of a sport area management method based on an internet of things platform according to an embodiment of the present invention.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

It should be understood that the described embodiments are only some embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Fig. 1 is a flowchart of a sport area management method based on an internet of things platform according to an embodiment of the present invention.

Referring to fig. 1, the method includes the following steps S101-S102:

s101: and acquiring the number of people in the sport place in real time.

S102: and controlling the number of the lighting equipment and various sensors arranged in the sport place based on the Internet of things platform to be started, so that the lighting equipment and various sensors are adapted to the number of the people in the sport place at the current moment.

The beneficial effects of the above technical scheme are: firstly, acquiring the number of people in a sport place in real time, and then controlling the number of started lighting equipment and various sensors arranged on the basis of an Internet of things platform in the sport place to be adapted to the number of people in the sport place at the current moment, wherein when the number of people in the sport place is large, the number of started lighting equipment and various sensors can be increased; when the number of personnel in the sport place is small, the number of the lighting devices and the sensors can be reduced, the number of the intelligent control devices which are started is increased, the experience of the personnel in the sport place is improved, the management efficiency and level are improved, and the labor cost of managers is saved.

As an alternative embodiment, the step S101 may include the following steps S201 to S202:

s201: images within the sport area are collected in real time.

S202: and detecting the number of people in the image in the motion place according to a preset people target detection algorithm, wherein the number of people in the motion place is used as the number of people in the motion place at the current moment.

The beneficial effects of the above technical scheme are: the multi-angle camera is configured in the platform of the Internet of things, a preset personnel target detection algorithm can be arranged in the camera in a front-mounted mode or in a back-mounted mode, the number of collected personnel in images in the sport field is analyzed in real time, and the number of lighting equipment and various sensors in the sport field which are started can be controlled conveniently and subsequently according to the number of the personnel in the sport field.

As an alternative embodiment, the step S101 may include the following steps S301 to S302:

s301: and acquiring the number of people entering/leaving the sports place when the door of the sports place is opened every time from the moment of opening the door of the sports place on the day.

S302: and counting the number of people in the sports place at the current moment in real time according to the number of people entering/leaving the sports place when the door of the sports place is opened every time.

The beneficial effects of the above technical scheme are: the accessible sets up in the door of motion place access & exit position sensor, gets into/leaves when opening the door at every turn the personnel quantity in motion place can obtain the current moment in real time personnel quantity in the motion place has the statistics accuracy, and the simple advantage of implementation mode is convenient for follow-up personnel quantity according to in the motion place, the quantity that lighting apparatus and all kinds of sensors in the control motion place opened.

As an alternative embodiment, the step S301 may include the following steps S401 to S402:

s401: the event that the person enters the sport place is known through a first card swiping machine installed outside a doorway of the sport place, or the event that the person leaves the sport place is known through a second card swiping machine installed inside the doorway of the sport place.

S402: when the event that people enter/leave the sport place is known, the number of the people entering/leaving the sport place at the time of opening the door is sensed by an infrared sensing device arranged on a doorframe of the sport place within the preset door opening time.

Wherein, infrared induction system can be including installing in the infra-red transmitter and the infrared receiver of motion place door frame left and right sides respectively, and when not sheltering from the thing in the door frame, the infra-red signal of infra-red transmitter transmission is received by the infra-red receiver of opposite, when personnel pass in and out this door frame, because the business turn over can shelter from the infra-red signal of infra-red transmitter transmission in the twinkling of an eye, thereby signal production pulse signal that then infra-red receiver received can judge whether someone passes in and out the door frame.

The step S302 may include: counting the number of people in the sport place at the current moment according to a first formula;

wherein the first formula is:

wherein N (t) represents the number of people in the sport place at the moment t; t represents the current time; t is t ₀ Representing the moment of opening the door on the day of the sport area; x (t) ₀ → t) denotes from t ₀ The total number of times of swiping the card by the first card swiping machine between the moment and the t moment; y (t) ₀ → t) denotes from t ₀ The total number of times of swiping the card by the second card swiping machine between the moment and the t moment; c, T _i (x) -represents from t ₀ The first card swiping machine enters the playground within the preset door opening time after the x-th time of card swiping door opening of the first card swiping machine is carried out between the moment and the t momentThe number of people involved; c, T _j (y) -denotes a number from t ₀ And the number of people leaving the sport place is sensed by the infrared sensing device within preset door opening time after the second card swiping machine is swiped for the y time between the moment and the t moment.

The beneficial effects of the above technical scheme are: according to a first formula (1), the number of people in the place is known according to the card swiping conditions of the internal and external card swiping machines (wherein the internal card swiping machine is a second card swiping machine and is arranged inside a doorway of the sport place, the external card swiping machine is a first card swiping machine and is arranged outside the doorway of the sport place), and the sensing conditions of the infrared sensing device within the fixed door opening time after each card swiping, so that the people in the place are automatically calculated, and subsequent intelligent control is facilitated.

As an alternative embodiment, the step S102 may include the following steps S501 to S504:

s501: and acquiring the illumination intensity in the sport place at the current moment by a light sensation sensor which is preset in the sport place.

S502: and calculating the control number of the lighting devices in the sport field at the current moment to be turned on based on a second formula according to the number of the personnel and the illumination intensity in the sport field at the current moment.

S503: and calculating the maximum opening number of each type of sensor in the current-time sport field based on a third formula according to the number of the people in the current-time sport field.

S504: controlling the starting number of the lighting devices arranged in the sport place based on the Internet of things platform to be the control number of the lighting devices in the sport place at the current moment, and simultaneously controlling the starting number of each type of sensors arranged in the sport place based on the Internet of things platform not to exceed the maximum starting number.

Wherein the second formula is:

in the second formula, m (t) represents the sport area at the current momentThe number of the turned-on internal lighting devices is controlled; m represents the total number of lighting devices in the sport field; e (t) represents the illumination intensity value in the sport field at the current moment; e ₀ Representing predetermined illumination intensity values that may be provided by individual lighting devices within the sport area; min, representing that the minimum value of the numerical values at the left end and the right end of a comma in brackets is obtained; max, representing the maximum value of the values at the left and right ends of the comma in the bracket;

the third formula is:

in a third formula, b (t _ a) represents the maximum opening number of the class a sensors in the motion place at the current moment; b _max (a) Representing a total number of class a sensors disposed within the sport area; p represents a total number of categories of sensor categories disposed within the sport area;

the expression that the value of a is taken from 1 to P to obtain B _max (a) Maximum value of (d); INT + indicates rounding the number in parentheses.

The beneficial effects of the above technical scheme are: after the current number of people in the sport place is obtained, the number of the lighting devices in the venue is controlled to be turned on by utilizing a second formula (2) according to the total number of people in the venue at the current moment and the illumination intensity in the venue collected by the arranged light sensor, so that the electricity loss is effectively reduced; and finally, the maximum opening number of each sensor arranged in the place is controlled by using a third formula (3) according to the number of the people in the place, so that the use of a part of sensors can be intelligently reduced when the number of people is small, the energy consumption is saved, all the lighting equipment and the sensors can be intelligently turned off when no people exists, the manpower supervision cost is effectively saved, and the intelligent management is realized.

As an optional embodiment, the various sensors and lighting devices arranged on the basis of the platform of the internet of things are uniformly arranged in the sport place;

the step S504 may include: controlling m (t) lighting devices which are uniformly distributed in the motion place to be started, and simultaneously controlling c (t _ a) sensors which are uniformly distributed in a class a sensor which is arranged in the motion place to be started; where c (t _ a) < b (t _ a).

The beneficial effects of the above technical scheme are: after the control number m (t) of the lighting devices in the motion place at the current moment and the maximum starting number b (t _ a) of each type of sensor are calculated, m (t) lighting devices which are uniformly dispersed in the motion place can be controlled to be started by workers manually, and c (t _ a) sensors which are uniformly dispersed in the a-th type of sensor arranged in the motion place are controlled to be started at the same time, so that the started devices can be used to the maximum extent, energy resources are saved effectively, and the motion experience of the people in the motion place can be improved effectively.

As an alternative embodiment, after step S504, the method further includes:

and providing the control number of the lighting devices in the sport field at the current moment and the maximum starting number of each type of sensors in the sport field at the current moment to a control terminal of the sport field.

The beneficial effects of the above technical scheme are: the control number of the lighting devices and the maximum opening number of each type of sensors in the sport place at the current moment are provided for the control terminal of the sport place, so that workers can know the number of the lighting devices and the number of the sensors to be opened through the control terminal, and then the lighting devices and the sensors are controlled to be opened through the control terminal, and the intelligent management level is improved.

As an alternative embodiment, the sensor comprises: one or more of a light sensor, a temperature sensor, a humidity sensor and a pressure sensor.

The beneficial effects of the above technical scheme are: can set up multiple sensor in the motion place, include, a light sense sensor for obtaining the illumination condition, the temperature sensor who obtains the temperature condition, the humidity transducer who obtains the place humidity condition, and the pressure sensor who obtains some sports equipment pressure condition, the environmental aspect in the motion place has been realized knowing comprehensively, also can deploy some intelligent monitoring sensors that are used for detecting the facility quality on the sports equipment in addition, not only provide data support for intelligent environment regulation, also provide the detection data for equipment intelligent maintenance, the motion place management level has been improved effectively.

As an alternative embodiment, the step S102 further includes: in the process of controlling the lighting equipment and various sensors to be started, if any lighting equipment or sensor cannot be normally started, the fault information of the corresponding lighting equipment or sensor is sent to maintenance personnel in the sport place.

The beneficial effects of the above technical scheme are: the fault information of the lighting equipment or the sensor which cannot be normally started is timely sent to maintenance personnel in a sport place, so that the maintenance personnel can conveniently carry out maintenance work as soon as possible, and the maintenance efficiency of the equipment is improved.

According to the content of the embodiment, various sensors such as light sensors are arranged in a sport place, a multi-angle camera is configured, a front-mounted or rear-mounted algorithm is adopted, and the platform of the Internet of things is accessed for unified management and control, so that multiple functions such as intelligent switch equipment and equipment fault supervision are realized; and one or more card swiping machines can be configured inside and outside the doorway of the sports place, a user can control the door at the doorway to open through swiping a card and can close after opening for a fixed time, an infrared sensing device is further arranged on the door frame at the doorway, the number of people in the place at present can be known according to the card swiping conditions of the inside and outside card swiping machines and the sensing conditions of the infrared sensing device in the fixed door opening time after the card swiping at each time, and then the maximum opening number of the illumination equipment and each sensor arranged in the place can be controlled according to the number of the people in the place at present, so that the purpose of reducing the electricity loss through intelligent management can be achieved.

The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the methods specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the method specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the methods specified in the flowchart flow or flows and/or block diagram block or blocks.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations. The above description is only for the specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (9)

1. The sport place management method based on the platform of the Internet of things is characterized by comprising the following steps:

acquiring the number of people in a sport place in real time;

and controlling the number of the lighting equipment and various sensors arranged on the basis of the platform of the Internet of things in the sport place to be started, so that the number of the lighting equipment and the sensors is adapted to the number of people in the sport place at the current moment.

2. The internet of things platform-based sport area management method according to claim 1, wherein the real-time acquisition of the number of people in the sport area comprises:

acquiring images in a sport place in real time;

and detecting the number of the personnel in the image in the movement place according to a preset personnel target detection algorithm, and taking the number of the personnel in the movement place at the current moment.

3. The internet of things platform-based sport area management method according to claim 1, wherein the real-time acquisition of the number of people in the sport area comprises:

acquiring the number of people entering/leaving the sports place when the door of the sports place is opened every time from the moment of opening the door of the sports place on the day;

and counting the number of the personnel in the sports place at the current moment in real time according to the number of the personnel entering/leaving the sports place when the door of the sports place is opened every time.

4. The method for managing a sports place based on an internet of things platform according to claim 3, wherein the obtaining of the number of people entering/leaving the sports place each time the sports place is opened comprises:

the event that a person enters the sport place is known through a first card swiping machine installed outside a doorway of the sport place, or the event that the person leaves the sport place is known through a second card swiping machine installed inside the doorway of the sport place;

when an event that people enter/leave the sport place is known, sensing the number of the people entering/leaving the sport place at the time of opening the door by an infrared sensing device arranged on a doorframe of the sport place within preset door opening time;

the real-time statistics of the number of the personnel in the sports place at the current moment according to the number of the personnel entering/leaving the sports place when the door of the sports place is opened at each time comprises the following steps:

counting the number of people in the sport place at the current moment according to a first formula;

wherein the first formula is:

wherein N (t) represents the number of people in the sport place at the moment t; t represents the current time; t is t ₀ Representing the moment of opening the door on the day of the sport area; x (t) ₀ → t) from t ₀ The total number of times of card swiping of the first card swiping machine between the moment and the t moment; y (t) ₀ → t) denotes from t ₀ The total number of times of swiping the card by the second card swiping machine between the moment and the t moment; c, T _i (x) -represents from t ₀ The number of people entering the movement place, which are sensed by the infrared sensing device, in the preset door opening time after the x-th card swiping and door opening of the first card swiping machine is performed between the moment and the t moment; c, T _j (y) -denotes a number from t ₀ And the number of people leaving the sport place is sensed by the infrared sensing device within preset door opening time after the second card swiping machine is swiped for the y time between the moment and the t moment.

5. The internet-of-things platform-based sport area management method according to claim 4, wherein the controlling of the number of on lighting devices and various sensors arranged in the sport area based on the internet-of-things platform comprises:

acquiring the illumination intensity in the sport place at the current moment through a light sensor which is arranged in the sport place in advance;

according to the number of people and the illumination intensity in the sport place at the current moment, the control number of the lighting devices in the sport place at the current moment is calculated based on a second formula;

calculating the maximum opening number of each type of sensor in the motion place at the current moment based on a third formula according to the number of people in the motion place at the current moment;

controlling the turn-on number of the lighting devices arranged on the basis of the Internet of things platform in the sport place to be the turn-on control number of the lighting devices in the sport place at the current moment, and simultaneously controlling the turn-on number of each type of sensors arranged on the basis of the Internet of things platform in the sport place not to exceed the maximum turn-on number;

wherein the second formula is:

in a second formula, m (t) represents the control number of the lighting devices in the motion place at the current moment; m represents the total number of lighting devices in the sport field; e (t) represents the illumination intensity value in the sport field at the current moment; e ₀ Representing predetermined illumination intensity values that may be provided by individual lighting devices within the sport area; min, representing that the minimum value of the numerical values at the left end and the right end of a comma in brackets is obtained; max, representing the maximum value of the values at the left and right ends of the comma in the bracket;

the third formula is:

in a third formula, b (t _ a) represents the maximum opening number of the class a sensors in the motion place at the current moment; b is _max (a) Representing a total number of class a sensors disposed within the sport area; p represents a total number of categories of sensor categories disposed within the sport area;

the expression that the value of a is taken from 1 to P to obtain B _max (a) Maximum value of (d); INT + indicates rounding the number in parentheses.

6. The Internet of things platform-based sport area management method according to claim 5, wherein said various sensors and lighting devices arranged based on the Internet of things platform are uniformly arranged in said sport area;

control lighting apparatus based on thing networking platform arranges in the motion place opens the control number that quantity was lighting apparatus opened in the motion place at the present moment, simultaneous control every type of sensor based on thing networking platform arranges in the motion place opens the quantity and does not exceed the maximum quantity of opening, include:

controlling m (t) lighting devices which are uniformly distributed in the motion place to be started, and simultaneously controlling c (t _ a) sensors which are uniformly distributed in a class a sensor which is arranged in the motion place to be started; where c (t _ a) < b (t _ a).

7. The method for managing the sports venue based on the platform of the internet of things according to claim 5, wherein after the controlling of the turn-on number of the lighting devices arranged in the sports venue based on the platform of the internet of things to be the control number of the turn-on of the lighting devices in the sports venue at the current moment and the controlling of the turn-on number of each type of sensors arranged in the sports venue based on the platform of the internet of things to be not more than the maximum turn-on number, the method further comprises:

and providing the control number of the lighting devices in the sport field at the current moment and the maximum starting number of each type of sensors in the sport field at the current moment to a control terminal of the sport field.

8. The internet of things platform-based sport area management method according to any one of claims 1-5, wherein said sensor comprises: one or more of a light sensor, a temperature sensor, a humidity sensor and a pressure sensor.

9. The internet-of-things platform-based sport area management method according to claim 1, wherein said controlling the number of lighting devices and various sensors arranged in the sport area based on the internet-of-things platform is turned on further comprises:

in the process of controlling the lighting equipment and various sensors to be started, if any lighting equipment or sensor cannot be started normally, fault information of the corresponding lighting equipment or sensor is sent to maintenance personnel in the sport place.

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