CN109219213A - Coalmine illumination management system and method based on Internet of Things - Google Patents
Coalmine illumination management system and method based on Internet of Things Download PDFInfo
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- CN109219213A CN109219213A CN201811050089.7A CN201811050089A CN109219213A CN 109219213 A CN109219213 A CN 109219213A CN 201811050089 A CN201811050089 A CN 201811050089A CN 109219213 A CN109219213 A CN 109219213A
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B47/00—Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
- H05B47/10—Controlling the light source
- H05B47/175—Controlling the light source by remote control
- H05B47/19—Controlling the light source by remote control via wireless transmission
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B47/00—Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
- H05B47/10—Controlling the light source
- H05B47/105—Controlling the light source in response to determined parameters
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B47/00—Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
- H05B47/10—Controlling the light source
- H05B47/155—Coordinated control of two or more light sources
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- Computer Networks & Wireless Communication (AREA)
- Circuit Arrangement For Electric Light Sources In General (AREA)
Abstract
The embodiment of the invention discloses a kind of coalmine illumination management system and method based on Internet of Things, wherein, the coalmine illumination management system includes underground sensing platform, mine lighting device and control platform, acquires downhole data by underground sensing platform, and downhole data is sent to control platform;Control platform handles the downhole data, obtains Lighting control parameter, and send Lighting control instruction to mine lighting device, mine lighting device carries the Lighting control parameter;Mine lighting device carries out illumination adjustments to mine lighting device according to the Lighting control parameter, it can control lighting device to be illuminated when needed, it lighting-off or is illuminated when unwanted with lower brightness, it avoids there is the lighting apparatus to work for a long time with greater brightness without the region that user passes through in mine, and then reduces the electric quantity consumption of mine lighting device.
Description
Technical field
The present invention relates to mine internet of things field, and in particular to a kind of coalmine illumination management system based on Internet of Things
And method.
Background technique
With technology of Internet of things fast development, effect of the Internet of Things in life is more and more obvious, and is just come by mine application
It says, the lighting system in mine is particularly significant for the staff under mine, can generally pass through lighting apparatus in mine
It is illuminated.However, lighting apparatus is chronically at working condition, certain energy waste will cause, it is then desired to in mine
Lighting apparatus controlled.
Summary of the invention
The embodiment of the present invention provides a kind of coalmine illumination management system and method based on Internet of Things, it is possible to reduce underground is shone
The electric quantity consumption of bright device.
In a first aspect, the embodiment of the present invention provides a kind of coalmine illumination management system based on Internet of Things, the mine shines
Bright management system includes underground sensing platform, mine lighting device and control platform, wherein
The underground sensing platform is sent to the control platform for acquiring downhole data, and by the downhole data;
The control platform obtains Lighting control parameter for handling the downhole data, and to the underground
Lighting device sends Lighting control instruction, and the Lighting control instruction carries the Lighting control parameter;
The mine lighting device, for carrying out illumination work according to the Lighting control parameter.
Second aspect, the coalmine illumination management method based on Internet of Things that the embodiment of the invention provides a kind of are applied to mine
Well illumination management system, the coalmine illumination management system include underground sensing platform, mine lighting device and control platform, institute
The method of stating includes:
Underground sensing platform acquires downhole data, and the downhole data is sent to the control platform;
Control platform handles the downhole data, obtains Lighting control parameter, and send to mine lighting device
Lighting control instruction, the Lighting control instruction carry the Lighting control parameter;
The mine lighting device carries out illumination work according to the Lighting control parameter.
The third aspect, the embodiment of the invention provides a kind of computer readable storage mediums, wherein described computer-readable
Storage medium is for storing computer program, wherein the computer program executes computer such as the embodiment of the present invention the
The instruction of step some or all of described in two aspects.
Fourth aspect, the embodiment of the invention provides a kind of computer program products, wherein the computer program product
Non-transient computer readable storage medium including storing computer program, the computer program are operable to make to calculate
Machine executes the step some or all of as described in second aspect of the embodiment of the present invention.The computer program product can be one
A software installation packet.
The implementation of the embodiments of the present invention has the following beneficial effects:
As can be seen that being applied to coalmine illumination management system, the coalmine illumination management system packet in the embodiment of the present invention
Underground sensing platform, mine lighting device and control platform are included, downhole data is acquired by underground sensing platform, such as detectable
Whether designated position has user's process, and the downhole data is sent to the control platform, and control platform is to the underground
Data are handled, and obtain Lighting control parameter, and send Lighting control instruction, the mine lighting dress to mine lighting device
It sets and carries the Lighting control parameter, the mine lighting device is according to the Lighting control parameter to the mine lighting device
Carry out illumination adjustments, can control lighting device and illuminated when needed, when unwanted lighting-off or
It is illuminated with lower brightness, the region presence in mine without user's process is avoided to work for a long time with greater brightness
Lighting apparatus, and then reduce the electric quantity consumption of mine lighting device.
Detailed description of the invention
In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below
There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this
Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with
It obtains other drawings based on these drawings.
Figure 1A is a kind of configuration diagram of coalmine illumination management system based on Internet of Things provided in an embodiment of the present invention;
Figure 1B is a kind of demonstration schematic diagram of the lighting apparatus in coalmine illumination management system provided in an embodiment of the present invention;
Fig. 1 C is a kind of structural schematic diagram of coalmine illumination management system based on Internet of Things provided in an embodiment of the present invention;
Fig. 2 is a kind of structural schematic diagram of coalmine illumination management method based on Internet of Things provided in an embodiment of the present invention;
Fig. 3 A is a kind of structural schematic diagram of coalmine illumination management method based on Internet of Things provided in an embodiment of the present invention;
Fig. 3 B is a kind of user provided in an embodiment of the present invention by designated position, and the demonstration of determining lighting apparatus is illustrated
Figure;
Fig. 3 C be it is provided in an embodiment of the present invention it is a kind of detect user's warp after the operating power of lighting apparatus change
A kind of demonstration schematic diagram;
Fig. 4 is a kind of another structural representation of coalmine illumination management method based on Internet of Things provided in an embodiment of the present invention
Figure.
Specific embodiment
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on
Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other
Embodiment shall fall within the protection scope of the present invention.
Description and claims of this specification and term " first " in above-mentioned attached drawing, " second " etc. are for distinguishing
Different objects, are not use to describe a particular order.In addition, term " includes " and " having " and their any deformations, it is intended that
It is to cover and non-exclusive includes.Such as the process, method, system, product or equipment for containing a series of steps or units do not have
It is defined in listed step or unit, but optionally further comprising the step of not listing or unit, or optionally also wrap
Include other step or units intrinsic for these process, methods, product or equipment.
Referenced herein " embodiment " is it is meant that a particular feature, structure, or characteristic described can wrap in conjunction with the embodiments
Containing at least one embodiment of the present invention.Each position in the description occur the phrase might not each mean it is identical
Embodiment, nor the independent or alternative embodiment with other embodiments mutual exclusion.Those skilled in the art explicitly and
Implicitly understand, embodiment described herein can be combined with other embodiments.
As shown in Figure 1A, Figure 1A is a kind of coalmine illumination management system based on Internet of Things provided in an embodiment of the present invention
Network architecture diagram.The coalmine illumination management system includes underground sensing platform, control platform and mine lighting device.Wherein, well
Lower sensing platform includes the sensor that each region in mine is arranged in, and sensor is for detecting downhole data, this hair
Sensor involved in bright embodiment may include following at least one: humidity sensor, strength of fluid sensor, pressure sensing
Device, sensor of dust concentration, proximity sensor, infrared sensor and camera etc.;Control platform is used for above-mentioned underground number
According to being analyzed, Lighting control parameter is obtained, to indicate that mine lighting device carries out illumination work;Mine lighting device may include
It is mounted on the lighting apparatus and power supply system of underground each region, lighting apparatus involved in the embodiment of the present invention may include hot spoke
Penetrate light source (such as: incandescent lamp and tungsten halogen lamp), glow discharge spot lamp (such as: high-voltage gas discharging light and low pressure gaseous discharge
Lamp), light emitting diode (light emitting diode, LED) lamp and high-pressure sodium lamp (such as: metal halide lamp and high pressure
Sodium vapor lamp) etc..
As shown in Figure 1B, Figure 1B is the lighting apparatus in a kind of coalmine illumination management system provided in an embodiment of the present invention
Demonstrate schematic diagram.Wherein, lighting apparatus is installed every a distance in mine tunnel, the mine provided through the embodiment of the present invention
Well illumination management system can acquire downhole data by underground sensing platform, and by the underground number when user passes through the region
According to the control platform is sent to, control platform handles downhole data, obtains Lighting control parameter, and to mine lighting
Device sends Lighting control instruction, and mine lighting device then carries out the mine lighting device according to the Lighting control parameter
Illumination adjustments.
Fig. 1 C is please referred to, Fig. 1 C is a kind of coalmine illumination management system based on Internet of Things provided in an embodiment of the present invention
Structural schematic diagram.Coalmine illumination management system as described in this embodiment based on Internet of Things, including underground sensing platform
101, control platform 102 and mine lighting device 103, specific as follows:
The downhole data for acquiring downhole data, and is sent to the control and put down by the underground sensing platform 101
Platform;
The control platform 102 obtains Lighting control parameter for handling the downhole data, and to described
Mine lighting device sends Lighting control instruction, and the Lighting control instruction carries the Lighting control parameter;
The mine lighting device 103, for carrying out illumination work according to the Lighting control parameter.
In a possible embodiment, the underground sensing platform 101 is specifically used for:
Whether detection designated position has user's process;
If there is user's process in the designated position, the identity information of the user is obtained.
In a possible embodiment, the mine lighting device 103 includes multiple lighting apparatus, described to described
Downhole data is handled, and in terms of obtaining Lighting control parameter, the control platform 102 is specifically used for:
Determine that the task travel information of the user and the task travel information are corresponding according to the identity information
Route information;
It determines the corresponding N number of lighting apparatus of the route information, and determines N number of running parameter of N number of lighting apparatus,
Using N number of running parameter as the Lighting control parameter, wherein N is the positive integer greater than 1.
In a possible embodiment, the underground sensing platform 101, is also used to detect the movement speed of the user
And current location, and the movement speed and the current location are sent to the control platform;
In terms of N number of running parameter of the determination N number of lighting apparatus, the control platform 102 is specifically used for:
Determine that the target illumination for being less than pre-determined distance with the distance between the current location in N number of lighting apparatus is set
It is standby;
Determine the target range between the current location and the target illumination equipment;
The target operating parameters of the target illumination equipment are determined according to the target range, and, according to the movement
Speed estimates the running parameter of other lighting apparatus in N number of lighting apparatus in addition to the target illumination equipment;
Illumination work is carried out to the mine lighting device according to the Lighting control parameter in the mine lighting device
Aspect, the mine lighting device 103 are specifically used for:
Control the target illumination equipment and carry out illumination work with the target operating parameters, and, the user with
When the distance between any lighting apparatus is less than the pre-determined distance in other lighting apparatus, control any lighting apparatus with
Corresponding running parameter carries out illumination work.
In a possible embodiment, the target illumination equipment includes multiple target illumination equipment, in the basis
In terms of the target range determines the target operating parameters of the target illumination equipment, the control platform 102 is specifically used for:
Determine in the multiple target illumination equipment the smallest major heading lighting apparatus of distance between the current location;
The major heading is determined according to the first object distance between the major heading lighting apparatus and the current location
The first object running parameter of lighting apparatus, the first object running parameter include the first operating power;
At least one target illumination in the multiple target illumination equipment in addition to the major heading lighting apparatus is set
Each target illumination equipment is used as from target illumination equipment in standby, determine the current location and it is described from target illumination equipment it
Between the second target range;
According to the movement speed and second target range determination and second target from target illumination equipment
Running parameter, second running parameter include the second operating power, wherein second operating power is less than first work
The rate of doing work.
As can be seen that acquiring downhole data, such as detectable specific bit by underground sensing platform in the embodiment of the present invention
Whether have user process, and downhole data is sent to the control platform if setting, control platform to the downhole data at
Reason obtains Lighting control parameter, and sends Lighting control instruction to mine lighting device, and mine lighting device carries the illumination
Control parameter, mine lighting device carry out illumination adjustments to mine lighting device according to the Lighting control parameter, can control
Lighting device is illuminated when needed, lighting-off or is illuminated when unwanted with lower brightness,
It avoids there is the lighting apparatus to work for a long time with greater brightness without the region that user passes through in mine, and then reduces underground
The electric quantity consumption of lighting device.
Presently filed embodiment is stated in detail from method side below.
Referring to Fig. 2, Fig. 2 is a kind of reality of the coalmine illumination management method based on Internet of Things provided in an embodiment of the present invention
Apply a flow diagram.Coalmine illumination management method as described in this embodiment, applied to coalmine illumination as shown in Figure 1A
Management system, the coalmine illumination management system include underground sensing platform, mine lighting device and control platform, the method
The following steps are included:
201, underground sensing platform acquires downhole data, and the downhole data is sent to the control platform.
In the embodiment of the present invention, underground sensing platform may include the sensor that each region in mine is arranged in, in mine
The settable following at least one sensor in each region in well: proximity sensor, infrared sensor, camera, range sensor,
Humidity sensor, strength of fluid sensor, pressure sensor and sensor of dust concentration etc., wherein downhole data may include
Following at least one: the identity information of user, the exercise data of user and subsurface environment data, wherein the identity information of user
For determining the task stroke of user;The exercise data of user is the fortune that user generates when designated position is walked or executes task
Dynamic data, such as may include the movement speed of user, it may include the moving direction of user may also comprise the mobile acceleration of user
Etc., it can determine that Lighting control is joined by the mobile acceleration of the movement speed of user, the moving direction of user and/or user
Number;Subsurface environment data include the environmental data of each region in mine, such as may include the dust concentration of designated position, can also
The surface humidity of surface humidity etc. including designated position, dust concentration and/or designated position by designated position can be true
Determine Lighting control parameter.
Wherein, designated position can be detected by above-mentioned pressure sensor whether someone passes through, when user is by designated position,
The pressure transition experienced is converted to pressure value at electric signal, and then by the electric signal by the pressure sensor, if the pressure value
More than preset pressure threshold, it is determined that there is user's process in the designated position.
Optionally, in above-mentioned steps 201, underground sensing platform acquires downhole data, it may include following steps:
Whether underground sensing platform detection designated position has user's process;
If there is user's process in the designated position, the identity information of the user is obtained.
In the embodiment of the present invention, when designated position has user to pass through, it can be detected and be used by above-mentioned underground sensing platform
The identity information at family, wherein pass through when specific bit is equipped with two or more users, the identity information of each user can be obtained respectively,
Wherein, the identity information of user may include following at least one: name, age, gender, height, weight and job information etc.
Deng job information for example can be coal-getter, electrician, dispatcher and security official etc., herein with no restrictions.
Wherein, it can detect whether designated position has user's process by being set to the proximity sensor of designated position, when having
User is close to the proximity sensor, which can be by the mobile message of user and there are information to be converted to electric signal,
To detect the presence of user, optionally, also it can detect whether designated position has by range sensor or infrared sensor
User passes through.
Wherein, underground sensing platform obtains the identity information of the user, can by designated position be arranged camera, when
User shoots the portrait image of user, which is sent to control platform, control platform by designated position, camera
The portrait image is matched with preset image template, obtains matching result, when the matching result is more than preset matching
Value, can be preset the corresponding identity information of each image template, then can determine the corresponding identity information of the image template.
202, control platform handles the downhole data, obtains Lighting control parameter, and to mine lighting device
Lighting control instruction is sent, the Lighting control instruction carries the Lighting control parameter.
Wherein, Lighting control parameter may include multiple running parameters of the multiple lighting apparatus in underground, wherein running parameter can
It comprises at least one of the following: the brightness of illumination of lighting apparatus, operating power, operating voltage, operating time, operating current etc.,
Herein with no restrictions.
Wherein, the lighting apparatus that Lighting control instruction is used to indicate in mine lighting device is joined according to corresponding Lighting control
Number carries out illumination work.
In the embodiment of the present invention, can identity information, exercise data by user, such as movement speed, subsurface environment number
The running parameter of mine lighting equipment is determined according to equal downhole datas, for example, route of user can be determined by the identity information of user,
So that it is determined that open which lighting apparatus illuminates for user, in another example, the movement speed of user and the position of user can be passed through
Confidence ceases the positional relationship determined between user and multiple lighting apparatus, thus the part in user in multiple lighting apparatus
When lighting apparatus, part lighting apparatus is opened as user's illumination, and other illuminations controlled in addition to the partial illumination equipment are set
It is standby to be in waiting or closed state, in another example, when the dark or larger dust concentration of position a certain under mine, can incite somebody to action
The brightness of illumination of lighting apparatus is adjusted to biggish brightness of illumination.
Optionally, in above-mentioned steps 202, mine lighting device includes multiple lighting apparatus, and control platform is to the underground
Data are handled, and obtain Lighting control parameter, it may include following steps:
21, the control platform according to the identity information determine the user task travel information and described
The corresponding route information of travel information of being engaged in;
22, it determines the corresponding N number of lighting apparatus of the route information, and determines N number of work ginseng of N number of lighting apparatus
Number, using N number of running parameter as the Lighting control parameter, wherein N is the integer greater than 1.
In the embodiment of the present invention, the corresponding task travel information of each identity information can be preset, and preset
The corresponding route information of each task stroke, each route information include the corresponding multiple location informations of the route, each position
Information is corresponding and the location information is apart from least one nearest lighting apparatus, after the identity information for obtaining user, according to user
Job information (such as: coal-getter) can determine the task travel information (such as: mining for coal) of the user, and then determine the task row
The corresponding route information of journey information, then, it is determined that the corresponding N number of lighting apparatus of the route information, i.e., controllable user is according to this
When route information is moved, is illuminated by N number of lighting apparatus of the route, the lighting apparatus in other regions can be reduced
Electric quantity consumption.
Wherein, N number of running parameter of N number of lighting apparatus can be identical, i.e., opens N number of lighting apparatus simultaneously, and control N number of
Lighting apparatus carries out illumination work with identical running parameter, in this way, can be uniformly controlled to N number of lighting apparatus;Optionally,
N number of running parameter of N number of lighting apparatus can be different, specifically, can control the lighting apparatus close to user with the first work ginseng
Number works, and controls the lighting apparatus far from user and is worked with the second running parameter for being different from the first running parameter,
For example, the controllable lighting apparatus close to user is worked with the first brightness of illumination, control the lighting apparatus far from user with
The second brightness of illumination less than the first brightness of illumination works.
203, mine lighting device carries out illumination work according to the Lighting control parameter.
In the embodiment of the present invention, mine lighting device receive Lighting control instruction after, control lighting apparatus according to it is upper
State the corresponding Lighting control parameter of downhole data and carry out illumination adjustments, realize according to the lighting requirements of user control lighting apparatus into
Row illumination, and lighting apparatus can be reduced and persistently maintain electric quantity consumption caused by higher brightness.
Optionally, the underground sensing platform acquires downhole data, may also include the steps of:
31, movement speed and the current location of the user are detected, and by the movement speed and the present bit
It sets and is sent to the control platform;
The control platform determines N number of running parameter of N number of lighting apparatus, it may include following steps:
32, determine that the target for being less than pre-determined distance in N number of lighting apparatus with the distance between the current location is shone
Bright equipment;
33, the target range between the current location and the target illumination equipment is determined;
34, the target operating parameters of the target illumination equipment are determined according to the target range, and, according to the shifting
Dynamic speed estimates the running parameter of other lighting apparatus in N number of lighting apparatus in addition to the target illumination equipment;
The mine lighting device carries out illumination work to the mine lighting device according to the Lighting control parameter, can
Include the following steps:
35, it controls the target illumination equipment and carries out illumination work with the target operating parameters, and, in the user
When the distance between lighting apparatus any in other lighting apparatus is less than the pre-determined distance, any lighting apparatus is controlled
Illumination work is carried out with corresponding running parameter.
It in the embodiment of the present invention, can be detected by movement speed of the proximity sensor to user, when user leans on proximity
Nearly sensor, which can be converted to electric signal for the mobile message of user, to detect the present bit of user
It sets and movement speed, specifically, detecting user within preset interval time between proximity sensor by proximity sensor
Spacing distance difference absolute value, the movement speed of user can be calculated according to the interval time and the absolute value.In addition, this
Apply that the predeterminated position of each lighting apparatus can also be stored in advance in embodiment, alternatively, behind the current location for obtaining user,
It can further determine that the distance between user and each lighting apparatus, then determine in N number of lighting apparatus between current location
Distance be less than pre-determined distance target illumination equipment.
Wherein, above-mentioned target illumination equipment may include a target illumination equipment, may also comprise with user current location it
Between distance be less than multiple lighting apparatus of pre-determined distance, such as in underground a few thing region, multiple lighting apparatus is needed to match
It closes work and illumination is provided, then can determine with the multiple lighting apparatus of user current location as target illumination equipment.
Wherein, the current location of two or more users is same position if it exists, can obtain the movement of each user respectively
Speed, and determine running parameter corresponding with each movement speed, it may be determined that the wherein work ginseng of the maximum user of lighting demand
Running parameter of the number as target illumination equipment, for example, it may be determined that wherein maximum service rating conduct corresponding with movement speed
The operating power of target illumination equipment.
Optionally it is determined that can control target after target illumination equipment nearest with the current location in N number of lighting apparatus
Lighting apparatus is as the lighting apparatus of user's lighting demand is provided, i.e., when control target illumination equipment works, in N number of lighting apparatus
Other lighting apparatus in addition to target illumination equipment are without work.For example, user at current location, controls target illumination
Equipment works, other lighting apparatus in addition to target illumination equipment are without work.Optionally, also controllable target is shone
Bright equipment is worked with biggish operating power or brightness of illumination, and controls other illuminations in addition to target illumination equipment
Equipment is worked with lesser operating power or brightness of illumination, in this way, both can guarantee user in the light of current location
According to demand, and electric quantity consumption caused by extra lighting apparatus continues working can be reduced.
Wherein, under identical operating power, user current location distance objective lighting apparatus is closer, user current location
Intensity of illumination it is bigger, user current location distance objective lighting apparatus is remoter, and the intensity of illumination of user current location can be smaller,
When user is moved to target illumination equipment position, the illumination intensity for experiencing target illumination equipment is maximum, therefore, according to institute
The target operating parameters that the target range between user current location and target illumination equipment states target illumination equipment are stated, are set in advance
Running parameter corresponding with the target range, such as operating power or operating brightness are set, then can determine corresponding with target range
Running parameter of the target operating parameters as the target illumination equipment, when user is close to target illumination equipment, i.e., target away from
From becoming smaller, then the operating power needed is smaller, opposite, when user is far from target illumination equipment, and does not reach next illumination also
Within the scope of the pre-determined distance of equipment, next lighting apparatus is not yet turned on illumination, needs to control the operating power of target illumination equipment
It is adjusted, when making user close to target illumination equipment, under the premise of guaranteeing user's lighting demand, the work of target illumination equipment
The rate of doing work is smaller and smaller, when user is far from target illumination equipment, under the premise of guaranteeing user's lighting demand, and target illumination equipment
Operating power it is increasing.
Wherein, its in N number of lighting apparatus in addition to the target illumination equipment is estimated according to the movement speed
The running parameter of his lighting apparatus, it may include according to the movement speed of user, estimate when user is moved to other lighting apparatus
Time, so that it is determined that the opening time of other lighting apparatus and running parameter, for example, when the movement speed of user is very fast,
Other lighting apparatus can control to work with biggish operating power, so that other lighting apparatus be enable quickly to improve other
The brightness of illumination of lighting apparatus or the brightness of illumination for quickly reducing other lighting apparatus set user quickly close to other illuminations
When standby, the brightness of illumination that can quickly improve other lighting apparatus quickly reduces other when user is rapidly directed away from other lighting apparatus
The brightness of illumination of lighting apparatus, so that the target work of above-mentioned N number of lighting apparatus be adjusted flexibly according to the movement speed of user in real time
The rate of doing work.
Optionally, in above-mentioned steps 34, the target illumination equipment includes multiple target illumination equipment, the control platform
The target operating parameters of the target illumination equipment are determined according to the target range, it may include following steps:
A1, the control platform determine that distance is the smallest between the current location in the multiple target illumination equipment
Major heading lighting apparatus;
A2, the argument is determined according to the first object distance between the major heading lighting apparatus and the current location
The first object running parameter of lighting apparatus is marked, the first object running parameter includes the first operating power;
A3, by least one target illumination in the multiple target illumination equipment in addition to the major heading lighting apparatus
Each target illumination equipment is used as from target illumination equipment in equipment, determines the current location and described from target illumination equipment
Between the second target range;
A4, it is determined and second mesh from target illumination equipment according to the movement speed and second target range
Running parameter is marked, second running parameter includes the second operating power, wherein second operating power is less than described first
Operating power.
In the embodiment of the present invention, when target illumination equipment includes multiple target illumination equipment, multiple targets can control to shine
The major heading lighting apparatus nearest with user current location is worked in bright equipment with the first running parameter, and is controlled and removed argument
Slave target illumination equipment other than mark lighting apparatus is worked with the second running parameter, specifically, can be illuminated according to major heading
First object distance between equipment and current location determines the first operating time and the first work of major heading lighting apparatus
Power, according to the second work determined from the second target range between target illumination equipment and current location from target illumination equipment
Make duration and the second operating power, the first operating time is different from the second operating time, and the first operating power is greater than the second work
The rate of doing work, so as to which the running parameter of multiple target illumination equipment is adjusted flexibly.
As can be seen that acquiring downhole data, such as detectable specific bit by underground sensing platform in the embodiment of the present invention
Whether have user process, and downhole data is sent to the control platform if setting, control platform to the downhole data at
Reason obtains Lighting control parameter, and sends Lighting control instruction to mine lighting device, and mine lighting device carries the illumination
Control parameter, mine lighting device carry out illumination adjustments to mine lighting device according to the Lighting control parameter, can control
Lighting device is illuminated when needed, lighting-off or is illuminated when unwanted with lower brightness,
It avoids there is the lighting apparatus to work for a long time with greater brightness without the region that user passes through in mine, and then reduces underground
The electric quantity consumption of lighting device.
Consistent with the above, Fig. 3 A is please referred to, Fig. 3 A is a kind of mine based on Internet of Things provided in an embodiment of the present invention
The embodiment flow diagram of illumination supervision method.Coalmine illumination management method as described in this embodiment is applied to as schemed
Coalmine illumination management system shown in 1A, the coalmine illumination management system include underground sensing platform, mine lighting device and
Control platform the described method comprises the following steps:
301, whether underground sensing platform detection designated position has user's process.
If 302, there is user's process in the designated position, the identity information and other underground numbers of the user are obtained
According to, and the identity information is sent to control platform.
Wherein, it is contemplated that, the case where some regions usually there will be many dust under mine, make the visibility in the region compared with
It is low, and influence the vision of user, need lighting apparatus to have biggish brightness, it is also possible to there are region ten partial tide of ground
It is wet, or even have the case where puddle, it needs lighting apparatus to have biggish brightness, enables users to find the situation in time.
Optionally, the dust concentration of current location and/or the ground of the current location are detected by underground sensing platform
Humidity, and the dust concentration and/or the surface humidity are sent to control platform;Control platform according to dust concentration and/
Or surface humidity, determine work of the running parameter corresponding with dust concentration and/or surface humidity as the target illumination equipment
Make parameter, makes user in the case where dust concentration is lower or ground is moister, there can be preferable illuminating effect.
Wherein, above-mentioned dust concentration can be detected by sensor of dust concentration, by humidity sensor to above-mentioned
Surface humidity is detected.
303, the control platform according to the identity information determine the user task travel information and described
The corresponding route information of travel information of being engaged in.
304, it determines the corresponding N number of lighting apparatus of the route information, and determines N number of work of N number of lighting apparatus
Parameter, using N number of running parameter as the Lighting control parameter, wherein N is the integer greater than 1.
305, the mine lighting device carries out illumination work according to the Lighting control parameter.
In the embodiment of the present invention, the mesh for being less than pre-determined distance in N number of lighting apparatus with the distance between current location is determined
After marking lighting apparatus, it can control the target illumination equipment as the primary illumination equipment of user's lighting demand is provided, i.e. control mesh
When marking lighting apparatus work, the slave target illumination equipment in N number of lighting apparatus in addition to target illumination equipment carries out floor light.
Specifically, user at current location, can control multiple target illumination equipment to work, when user is moved to and other illuminations
When the distance of equipment is less than pre-determined distance, control lighting apparatus works, while controlling in N number of lighting apparatus, which sets
Standby at least one neighbouring lighting apparatus works.
Wherein, it is determining corresponding with first object distance in the case that multiple target illumination equipment cooperations carry out illumination work
Running parameter of the running parameter as target illumination equipment, it may include got over hour in above-mentioned target range, major heading illumination is set
The first standby operating power is increasing, makes user when reaching the position where major heading lighting apparatus, and major heading illumination is set
Standby operating power is maximum;In addition, being not yet moved to and the position at a distance from target illumination equipment for pre-determined distance in user
When, setting from the operating power of target illumination equipment be preset minimum power, when user be moved to from target illumination equipment
The distance between when being less than the position of pre-determined distance, according to the current location of user and from the second mesh between target illumination equipment
Subject distance determines the second operating power corresponding with the second target range, as user is close to lighting apparatus, second target
Apart from smaller and smaller, the second operating power is increasing.
For example, as shown in Fig. 3 B-3C, Fig. 3 B is a kind of user provided in an embodiment of the present invention by designated position,
The demonstration schematic diagram of determining lighting apparatus.Fig. 3 C is after detecting user's warp, and the operating power of lighting apparatus becomes at any time
A kind of demonstration schematic diagram changed.Determine the major heading lighting apparatus 2100 and N number of photograph nearest apart from 2000 current location of user
First adjacent with target illumination equipment in bright equipment from target illumination equipment 2101 and second from target illumination equipment 2102,
It determines the first object distance of current location Yu major heading lighting apparatus 2100, determines with first object apart from corresponding first work
Running parameter of the rate of doing work as major heading lighting apparatus, when user is close to major heading lighting apparatus 2100, major heading illumination is set
Standby 2100 the first operating power is gradually increased, when user be less than at a distance from target illumination equipment 2101 with first preset away from
From first increases since minimum power from the second operating power of target illumination equipment 2101, when user is moved to major heading
Position where lighting apparatus 2100, the first operating power of major heading lighting apparatus 2100 reaches maximum, and user is gradually remote
From major heading lighting apparatus 2100, the power of major heading lighting apparatus 2100 is gradually reduced, and first from target illumination equipment 2101
The second operating power continue to increase, when user 2000 be moved at a distance from major heading lighting apparatus 2100 be greater than it is default away from
From the first operating power of major heading lighting apparatus 2100 is decreased to minimal power values.As can be seen that by the above-mentioned means, can
The operating power of flexible modulation lighting apparatus meets the lighting demand of user, and lighting apparatus without it is lasting maintain compared with
It is high-power to carry out illumination work, and then reduce electric quantity consumption.
Optionally, determine that user in the residence time of current location, and determines the residence time by underground sensing platform
The running parameter of target illumination equipment corresponding with the time range can be preset, for example, when this stops in locating time range
When the time being stayed to be less than or equal to 3s, then corresponding operating power is P1, greater than 3s and it is less than 3min when the residence time, then corresponds to
Operating power be P2, when the residence time being greater than or equal to 3min, then corresponding operating power is P3。
As can be seen that whether underground sensing platform detection designated position has user's process, if specified in the embodiment of the present invention
There is user's process in position, then obtains the identity information and other downhole datas of user, and identity information is sent to control and is put down
Platform, and downhole data is sent to the control platform;Control platform determines the task travel information of user according to identity information,
And the corresponding route information of task travel information, determine the corresponding N number of lighting apparatus of route information, and determine that N number of illumination is set
Standby N number of running parameter, using N number of running parameter as Lighting control parameter, wherein N is the integer greater than 1;Mine lighting dress
It sets and illumination work is carried out according to the Lighting control parameter, illuminated when needed it is thus possible to control lighting device,
It lighting-off or is illuminated when unwanted with lower brightness, the region passed through in mine without user is avoided to deposit
In the lighting apparatus to work for a long time with greater brightness, and then reduce the electric quantity consumption of mine lighting device.
Referring to Fig. 4, Fig. 4 is a kind of reality of the coalmine illumination management method based on Internet of Things provided in an embodiment of the present invention
Apply a flow diagram.Coalmine illumination management method as described in this embodiment, comprising the following steps:
401, whether underground sensing platform detection designated position has user's process;If there is user's process in the designated position,
Then the underground sensing platform obtains the identity information of the user, and the movement speed and present bit of the detection user
It sets, and the movement speed and the current location is sent to the control platform.
Optionally, it can detect whether designated position has user's process by infrared sensor, when having user by specific bit
It sets, the infrared ray of infrared sensor transmitting can block generation reflection because of user's body, to detect the presence of user.
Optionally, above-mentioned underground sensing platform is also used to detect the current location of user and the environmental data of current location,
And the current location and the environmental data are sent to control platform.
402, control platform determines the task travel information of the identity information according to the identity information;And it is described
The corresponding route information of task travel information.
Optionally, according to the identity information of user, user can also be obtained in the historic task stroke of preset historical juncture
Information perhaps appoint for example, obtaining synchronization or the history at close moment of the user within past one week by historical route information
Business travel information perhaps estimate according to the historic task travel information or historical route information by corresponding historical route information
Task travel information and the task travel information corresponding route information of the user at current time.
403, control platform determines the corresponding N number of lighting apparatus of the route information, determine in N number of lighting apparatus with
The distance between described current location is less than the target illumination equipment of pre-determined distance, wherein N is the positive integer greater than 1.
404, the target range between the current location and the target illumination equipment is determined.
405, the target operating parameters of the target illumination equipment are determined according to the target range, and, according to described
Movement speed estimates the running parameter of other lighting apparatus in N number of lighting apparatus in addition to the target illumination equipment.
406, mine lighting device controls the target illumination equipment and carries out illumination work with the target operating parameters, with
And when being less than the pre-determined distance at a distance from the user is between any lighting apparatus in other lighting apparatus, control institute
It states any lighting apparatus and illumination work is carried out with corresponding running parameter.
In the embodiment of the present invention, it can detect whether designated position has user's process by underground sensing platform, if specific bit
It is equipped with user's process, then obtains the identity information of the user, and movement speed and the current location of detection user, and will
Movement speed and current location are sent to control platform;Control platform determines the task stroke of identity information according to identity information
Information, and, the corresponding route information of task travel information, then, it is determined that the corresponding N number of lighting apparatus of route information, determines N
It is less than the target illumination equipment of pre-determined distance in a lighting apparatus with the distance between current location, determines current location and target
Target range between lighting apparatus determines the target operating parameters of target illumination equipment according to target range, and, according to shifting
Dynamic speed estimates the running parameter of other lighting apparatus in N number of lighting apparatus in addition to target illumination equipment, mine lighting dress
Set control target illumination equipment and with target operating parameters carry out illumination work, and, user with it is any in other lighting apparatus
When the distance between lighting apparatus is less than pre-determined distance, any lighting apparatus is controlled with corresponding running parameter and carries out gaffer
Make, is illuminated when needed it is thus possible to control lighting device, the lighting-off or lower when unwanted
Operating power work, avoid in well mine without user pass through region exist for a long time with higher merits and demerits power work photograph
Bright equipment, and then reduce the electric quantity consumption of mine lighting device.
The embodiment of the present invention also provides a kind of computer readable storage medium, wherein the computer storage medium can
It is stored with program, which includes the portion for any coalmine illumination management method recorded in above method embodiment when executing
Point or Overall Steps.
The embodiment of the present invention also provides a kind of computer program product, wherein the computer program product includes storage
The non-transient computer readable storage medium of computer program, the computer program are operable to execute computer such as
Some or all of any coalmine illumination management method recorded in above method embodiment step.
It should be noted that for the various method embodiments described above, for simple description, therefore, it is stated as a series of
Combination of actions, but those skilled in the art should understand that, the present invention is not limited by the sequence of acts described because
According to the present invention, some steps may be performed in other sequences or simultaneously.Secondly, those skilled in the art should also know
It knows, the embodiments described in the specification are all preferred embodiments, and related actions and modules is not necessarily of the invention
It is necessary.
In the above-described embodiments, it all emphasizes particularly on different fields to the description of each embodiment, there is no the portion being described in detail in some embodiment
Point, reference can be made to the related descriptions of other embodiments.
In several embodiments provided by the present invention, it should be understood that disclosed system, it can be by another way
It realizes.For example, system embodiment described above is only schematical, such as the division of the module, it is only a kind of
Logical function partition, there may be another division manner in actual implementation, such as multiple module or components can combine or can
To be integrated into another system, or some features can be ignored or not executed.
The module as illustrated by the separation member may or may not be physically separated, aobvious as module
The component shown may or may not be physical module, it can and it is in one place, or may be distributed over multiple
On network module.Some or all of the modules therein can be selected to realize the mesh of this embodiment scheme according to the actual needs
's.
Those of ordinary skill in the art will appreciate that all or part of the steps in the various methods of above-described embodiment is can
It is completed with instructing relevant hardware by program, which can store in a computer-readable memory, memory
It may include: flash disk, read-only memory (read-only memory, ROM), random access device (random access
Memory, RAM), disk or CD etc..
The embodiment of the present invention has been described in detail above, specific case used herein to the principle of the present invention and
Embodiment is expounded, and the above description of the embodiment is only used to help understand the method for the present invention and its core ideas;
At the same time, for those skilled in the art can in specific embodiments and applications according to the thought of the present invention
There is change place, in conclusion the contents of this specification are not to be construed as limiting the invention.
Claims (10)
1. a kind of coalmine illumination management system based on Internet of Things, which is characterized in that the coalmine illumination management system includes well
Lower sensing platform, control platform and mine lighting device, wherein
The underground sensing platform is sent to the control platform for acquiring downhole data, and by the downhole data;
The control platform obtains Lighting control parameter for handling the downhole data, and to the mine lighting
Device sends Lighting control instruction, and the Lighting control instruction carries the Lighting control parameter;
The mine lighting device, for carrying out illumination work according to the Lighting control parameter.
2. coalmine illumination management system according to claim 1, which is characterized in that the underground sensing platform is specifically used
In:
Whether detection designated position has user's process;
If there is user's process in the designated position, the identity information of the user is obtained.
3. coalmine illumination management system according to claim 2, which is characterized in that the mine lighting device includes multiple
Lighting apparatus is handled the downhole data described, and in terms of obtaining Lighting control parameter, the control platform is specifically used
In:
The task travel information and the corresponding route of the task travel information of the user are determined according to the identity information
Information;
It determines the corresponding N number of lighting apparatus of the route information, and determines N number of running parameter of N number of lighting apparatus, by institute
N number of running parameter is stated as the Lighting control parameter, wherein N is the positive integer greater than 1.
4. coalmine illumination management system according to claim 3, which is characterized in that
The underground sensing platform is also used to detect movement speed and the current location of the user, and will be described mobile fast
Degree and the current location are sent to the control platform;
In terms of N number of running parameter of the determination N number of lighting apparatus, the control platform is specifically used for:
Determine the target illumination equipment for being less than pre-determined distance in N number of lighting apparatus with the distance between the current location;
Determine the target range between the current location and the target illumination equipment;
The target operating parameters of the target illumination equipment are determined according to the target range, and, according to the movement speed
Estimate the running parameter of other lighting apparatus in N number of lighting apparatus in addition to the target illumination equipment;
In terms of the mine lighting device carries out illumination work to the mine lighting device according to the Lighting control parameter,
The mine lighting device is specifically used for:
It controls the target illumination equipment and carries out illumination work with the target operating parameters, and, in the user and other
When the distance between any lighting apparatus is less than the pre-determined distance in lighting apparatus, any lighting apparatus is controlled with correspondence
Running parameter carry out illumination work.
5. coalmine illumination management system according to claim 4, which is characterized in that the target illumination equipment includes multiple
Target illumination equipment, in terms of the target operating parameters for determining the target illumination equipment according to the target range, institute
Control platform is stated to be specifically used for:
Determine in the multiple target illumination equipment the smallest major heading lighting apparatus of distance between the current location;
The major heading illumination is determined according to the first object distance between the major heading lighting apparatus and the current location
The first object running parameter of equipment, the first object running parameter include the first operating power;
It will be at least one target illumination equipment in the multiple target illumination equipment in addition to the major heading lighting apparatus
Each target illumination equipment is used as from target illumination equipment, determines the current location and described between target illumination equipment
Second target range;
According to the movement speed and second target range determination and second target operation from target illumination equipment
Parameter, second running parameter include the second operating power, wherein second operating power is less than the first work function
Rate.
6. a kind of coalmine illumination management method based on Internet of Things, which is characterized in that it is applied to coalmine illumination management system, it is described
Coalmine illumination management system includes underground sensing platform, mine lighting device and control platform, which comprises
The underground sensing platform acquires downhole data, and the downhole data is sent to the control platform;
The control platform handles the downhole data, obtains Lighting control parameter, and send to mine lighting device
Lighting control instruction, the Lighting control instruction carry the Lighting control parameter;
The mine lighting device carries out illumination work according to the Lighting control parameter.
7. according to the method described in claim 6, it is characterized in that, the underground sensing platform acquires downhole data, comprising:
Whether underground sensing platform detection designated position has user's process;
If there is user's process in the designated position, the identity information of the user is obtained.
8. the method according to the description of claim 7 is characterized in that the mine lighting device includes multiple lighting apparatus, institute
It states control platform to handle the downhole data, obtains Lighting control parameter, comprising:
The control platform determines that the task travel information of the user and the task stroke are believed according to the identity information
Cease corresponding route information;
It determines the corresponding N number of lighting apparatus of the route information, and determines N number of running parameter of N number of lighting apparatus, by N
A running parameter is as the Lighting control parameter, wherein N is the integer greater than 1.
9. according to the method described in claim 8, it is characterized in that, the underground sensing platform acquires downhole data, further includes:
Movement speed and the current location of the user are detected, and the movement speed and the current location are sent to
The control platform;
The control platform determines N number of running parameter of N number of lighting apparatus, comprising:
Determine the target illumination equipment for being less than pre-determined distance in N number of lighting apparatus with the distance between the current location;
Determine the target range between the current location and the target illumination equipment;
The target operating parameters of the target illumination equipment are determined according to the target range, and, according to the movement speed
Estimate the running parameter of other lighting apparatus in N number of lighting apparatus in addition to the target illumination equipment;
The mine lighting device carries out illumination work to the mine lighting device according to the Lighting control parameter, comprising:
It controls the target illumination equipment and carries out illumination work with the target operating parameters, and, in the user and other
When the distance between any lighting apparatus is less than the pre-determined distance in lighting apparatus, any lighting apparatus is controlled with correspondence
Running parameter carry out illumination work.
10. according to the method described in claim 9, it is characterized in that, the target illumination equipment includes that multiple target illuminations are set
Standby, the control platform determines the target operating parameters of the target illumination equipment according to the target range, comprising:
The control platform determines in the multiple target illumination equipment the smallest major heading of distance between the current location
Lighting apparatus;
The major heading illumination is determined according to the first object distance between the major heading lighting apparatus and the current location
The first object running parameter of equipment, the first object running parameter include the first operating power;
It will be at least one target illumination equipment in the multiple target illumination equipment in addition to the major heading lighting apparatus
Each target illumination equipment is used as from target illumination equipment, determines the current location and described between target illumination equipment
Second target range;
According to the movement speed and second target range determination and second target operation from target illumination equipment
Parameter, second running parameter include the second operating power, wherein second operating power is less than the first work function
Rate.
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