CN106154984B - Data processing system, data processing method and electric power management system - Google Patents

Abstract

The invention discloses a kind of data processing system, data processing method and electric power management systems.The data processing method includes the following steps: to read environment plan view.Multiple first virtual-sensors are generated, every one first virtual-sensor system is associated with one of multiple sensors, and multiple first virtual-sensors are configured to multiple first allocation positions on environment plan view according to the first configuration signal.The sensing result from multiple sensors is received, and penetrates multiple first virtual-sensors to show sensing result.Judge whether sensing result is normal.When sensing result is abnormal, then the first alarm signal is issued.Whereby, ambient condition can be effectively monitored and carry out environmental simulation.

Description

Data processing system, data processing method and electric power management system

Technical field

The present disclosure generally relates to a kind of monitoring technologies, and especially a kind of data processing system for integrating environment plan view, number According to processing method and electric power management system.

Background technique

With exploding for population in the world, energy crisis has been the problem of various countries is paid much attention in recent years.In addition, with section The progress of skill, people have applied a large amount of electronic product in daily life.Therefore, how in energy saving and maintenance life The convenience of work and comfortable middle acquirement balance, are still an awkward subject under discussion.

Here, if electronic product arround being intended to convenience that is energy saving and supporting the family and comfortably, being bound to effectively control Operating state, or the electronic product that discovery running in real time is abnormal.However, big arround being monitored in a manner of traditional artificial The electronic product of amount, it appears be not inconsistent benefit, also lack the real-time in monitoring.

In the practice of known monitoring interface, it is combined between the configuration information and indoor design figure of sensor When, indoor design figure is only taken as a simple image background.That is, when manager draws the diagram of a sensor When into certain indoor design figure (such as certain room), system can't carry out analyzing/detecing mistake to the process of this configuration, and be only single Purely by between the sensor of this corresponding diagram and a certain position of indoor design figure, it is attached the foundation of relationship.However, In such design, if sensor diagram is mistakenly configured at unreasonable region (such as the wall in two rooms by manager On), the system of will lead to can not real-time identification make mistake so that user takes the reading illustrating through this sensor in the future When (such as temperature/humidity), will be unable to accurately learn is the corresponding reading to which room/region on earth.

Summary of the invention

The present invention integrates the sensing result and environment plan view of sensor, and divides the configuration process of sensor diagram Analyse and detect mistake, to avoid the mistake of subsequent information judging, also solve traditional approach monitoring electronic product be not inconsistent benefit and The problem of lacking real-time.

The present invention provides a kind of data processing method, is suitable for multiple sensors, and each sensor system is set at least one Entity area, the data processing method include the following steps.Read environment plan view.Multiple first virtual-sensors are generated, Every one first virtual-sensor system is associated with one of multiple sensors, and according to the first configuration signal come empty by multiple first Quasi- sensor is configured at multiple first allocation positions on environment plan view.The sensing result from multiple sensors is received, and Sensing result is shown through multiple first virtual-sensors.Judge whether sensing result is normal.When sensing result is abnormal When, then issue the first alarm signal.

In an embodiment of the present invention, multiple second virtual-sensors are generated, and according to one second configuration signal come will be more A second virtual-sensor is configured at multiple second allocation positions on environment plan view, and simulation money is generated according to sensing result Material, and multiple first analog results are obtained according to simulation data and multiple second allocation positions, to penetrate multiple second Virtual-sensor shows corresponding multiple first analog results.

In an alternative embodiment of the invention, multiple boundaries in environment plan view are read, multiple boundaries are by environment plan view It is divided into an at least virtual region, an at least virtual region corresponds to an at least real field region, and according to multiple boundaries and extremely A few virtual region, to judge whether multiple first allocation positions and multiple second allocation positions are normal.

In an alternative embodiment of the invention, judge whether multiple first allocation positions are located on multiple boundaries, when multiple When one allocation position is located on multiple boundaries, then issue the second alarm signal, and judge multiple second allocation positions whether position In on multiple boundaries, when multiple second allocation positions are located on multiple boundaries, then third alarm signal is issued.

In an alternative embodiment of the invention, judge whether multiple first allocation positions are located in an at least virtual region, when When multiple first allocation positions are not located in an at least virtual region, then the 4th alarm signal is issued, and judge multiple second Whether allocation position is located in an at least virtual region, when multiple second allocation positions are not located in an at least virtual region, Then issue the 5th alarm signal.

In an alternative embodiment of the invention, differentiate in environment plan view whether there is the complete envelope being made of multiple boundaries Completely enclosed block is then determined as virtual region when having completely enclosed block in environment plan view by closed zone block.

In an alternative embodiment of the invention, differentiate in environment plan view whether there is partly open block, partly open area Block has notch, and notch is less than critical value relative to the ratio on boundary belonging to notch, local when having in environment plan view When open block, then partly open block is determined as virtual region.

In an alternative embodiment of the invention, interpolation algorithm is executed according to sensing result, so as to generating simulation data, and it is right Answer simulation data in marking an at least isopleth on environment plan view.

In an alternative embodiment of the invention, corresponding second simulation knot is shown according to simulation data and slider position Fruit.

The present invention provides a kind of data processing system, including multiple sensors and information processing unit.Information processing apparatus It sets including reading unit, build unit, processing unit and comparing unit.Wherein, it is real to be set at least one for each sensor system Body region.Reading unit is to read environment plan view.Unit coupling reading unit is built, and virtual to generate multiple first Sensor, every one first virtual-sensor system are associated with one of multiple sensors, and according to the first configuration signal come will be more A first virtual-sensor is configured at multiple first allocation positions on environment plan view.Processing unit couple reading unit and Unit is built, and is felt to receive the sensing result from multiple sensors, and through multiple first virtual-sensors to show Survey result.Comparing unit coupling reading unit builds unit and processing unit, and to judge whether sensing result is positive Often, when sensing result is abnormal, then the first alarm signal is issued.

The present invention provides a kind of electric power management system, including environment control unit, air-conditioning device, coordinator, central host, Energy management host and terminal device.Environment control unit includes one or more sensors, one or more ammeters and first Wireless node apparatus.Information is conveyed to the first wireless node apparatus after sensing to site environment by sensor.Ammeter will be used Power information is conveyed to the first wireless node apparatus.Air-conditioning device includes one or more frequency converters, program logic controller, the second nothing Line node apparatus.Coordinator receives the information from the first wireless node apparatus and the second wireless node apparatus, and controls the One wireless node apparatus and the second wireless node apparatus.Central host receives the information for coming from coordinator, and controls coordinator. Energy management host counts and analyzes the information for receiving and coming from central host, and assigns management to central host based on the analysis results Instruction, central host are managed environment sensing device or air-conditioning device through coordinator.Terminal device receives central host And energy management host information and be shown on screen.

As described above, the present invention by configuration the first virtual-sensor in environment plan view, to monitor in entity area Corresponding sensor, and by the second virtual-sensor of configuration in environment plan view, to show corresponding analog result. When sensing result exception, then a capable of emitting corresponding alarm signal.In the first virtual-sensor and the second virtual-sensor In configuration process, when corresponding allocation position is unreasonable, then capable of emitting corresponding another alarm signal.Whereby, it can exclude to make User is improper for the configuration of virtual-sensor, and can effectively and the ambient condition to arround is monitored and simulates in real time.

Illustrate to be the essence to demonstrate and illustrate the present invention above with respect to the content of present invention and below in relation to embodiment Mind and principle, and provide the claim to the present invention further explanation.

[Detailed description of the invention]

1st figure is the block diagram according to the data processing system of one of present invention embodiment.

2nd figure is the system architecture diagram according to the electric power management system of one of present invention embodiment.

3rd figure is the flow chart according to the data processing method of one of present invention embodiment.

[specific embodiment]

Describe the detailed features of the present invention in embodiments below, content is enough to make any to be familiar with relevant art It solves the technology contents of the present invention and implements accordingly, and according to content disclosed by this specification, claim and schema, appoint What is familiar with the purpose and advantage that relevant art can be readily understood upon correlation of the invention.Following embodiment system further illustrates this hair It is bright all towards but non-with any scope towards the limitation present invention.

1st figure is the block diagram according to the data processing system 100 of one of present invention embodiment.Data processing system 100, Including multiple sensors 101 ~ 120 and information processing unit 200.Each sensor system is set to an at least entity area.It lifts For example, sensor 101 ~ 120 can be the either other sensings of temperature sensor, humidity sensor or Electro-metering table Device, it is without restriction herein.The quantity of sensor is also without restriction.Entity area can be hall space, meeting room, religion Room either any region defined by wall, partition or various entity boundaries.

Information processing unit 200 includes reading unit 210, builds unit 220, processing unit 230 and comparing unit 240.Information processing unit 200 can be desktop PC, notebook computer either various intelligent electric sub-devices, This is without restriction.Reading unit 210 builds unit 220, processing unit 230 and comparing unit 240 and can be various functions Chip either microprocessor, it is also without restriction herein.

Reading unit 210 is to read an environment plan view.In embodiments of the present invention, reading unit 210 can be to specific Indoor design figure carry out image identification, be output in monitoring interface so as to being converted into environment plan view, and by environment plan view, Using the image background as corresponding monitoring environment.In an alternative embodiment of the invention, reading unit 210 can be set to other kinds of Meter figure carries out image identification, without restriction herein to be converted into environment plan view.

It builds unit 220 and couples reading unit 210.In addition, building unit 220 to generate multiple first virtual sensings Device, every one first virtual-sensor system be associated with multiple sensors 101 ~ 120 one of them, and according to the first configuration signal come by Multiple first virtual-sensors are configured at multiple first allocation positions on environment plan view.In embodiments of the present invention, each One virtual-sensor can be the diagram that one of particular sensor 101 ~ 120 is corresponded in monitoring interface.First matches confidence It number can be various touch control operations, such as drag and drop or the input of various touch-controls, it is without restriction herein.User can be in prison It controls in the environment plan view in interface, configures signal by input first to carry out appropriate match to multiple first virtual-sensors It sets.Whereby, user can go out intuitively according to the relative position of the first virtual-sensor each in monitoring interface come accordingly interpretation The actual disposition situation of multiple sensors 101 ~ 120.

Processing unit 230 couples reading unit 210 and builds unit 220.In addition, processing unit 230 comes to receive From the sensing result of multiple sensors 101 ~ 120, and multiple first virtual-sensors are penetrated to show sensing result.In the present invention In embodiment, it is either various that the sensing result of sensor 101 ~ 120 can be temperature information, humidity information, electricity consumption information Environmental state information, it is without restriction herein.Processing unit 230, which can show this sensing result, is being located at the first allocation position It is also or other representative positions, also without restriction herein on first virtual-sensor or around it.

Comparing unit 240 couples reading unit 210, builds unit 220 and processing unit 230.In addition, comparing unit 240 to judge whether sensing result is normally, when sensing result is abnormal, then to issue the first alarm signal.In the present invention In embodiment, comparing unit 240 can according to history operation information either Information Security Standard come judge sensing result whether be Normally.First alarm signal can be in issuing flash signal or other kinds of on the first virtual-sensor of correspondence Standby signal.

In embodiments of the present invention, it is similar to the configuration of the first virtual-sensor, building unit 220 also can further produce Raw multiple second virtual-sensors, and multiple second virtual-sensors are configured at by environment plan view according to the second configuration signal On multiple second allocation positions.Second virtual-sensor can also be diagram.Second configuration signal can also be various touch-controls Operation, such as drag and drop, or various touch-control inputs are executed, it is without restriction herein.Unlike the first virtual-sensor, The purposes of second virtual-sensor can not be the directly corresponding sensing result to sensor.Wherein, processing unit 230 can basis The sensing result of sensor obtains the first mould according to simulation data and multiple second allocation positions to generate simulation data Intend as a result, and penetrating multiple second virtual-sensors to show corresponding first analog result.

In embodiments of the present invention, processing unit 230 can execute interpolation algorithm according to sensing result, so as to generating simulation Data, in addition to this, processing unit 230 can correspond to generated simulation data, at least first-class in marking on environment plan view It is worth line.For example, if sensor 101 ~ 110 is temperature sensor, processing unit 230 can be produced by interpolation algorithm is executed The relevant simulation data of raw temperature, and in marking thermoisopleth on environment plan view.If sensor 111 ~ 120 is Wet degree sensing Device, then processing unit 230 can generate the relevant simulation data of humidity by interpolation algorithm is executed, and in environment plan view subscript Remember the wet line such as out.Processing unit 230 can be marked with different colors its thermoisopleth, etc. the either other isopleth of wet line.

In embodiments of the present invention, processing unit 230 can also come according still further to simulation data and a slider position Show corresponding second analog result.It for example, can be on monitoring interface if user is intended to monitor more important fixed point The second virtual-sensor is configured, so as to monitoring the first analog result of this fixed point.If user is monitored with being intended to mobility, Mouse cursor can be moved, on environment plan view to monitor the second simulation knot corresponding to its slider position dynamically and in real-time Fruit.

In embodiments of the present invention, reading unit 210 can further read multiple boundaries in environment plan view, multiple Environment plan view is divided into an at least virtual region by boundary, and its at least virtual region corresponds to an at least real field region.It lifts For example, virtual region can be corresponded to the entity area of hall space, meeting room, classroom etc, and the side in environment plan view Boundary can be corresponded to wall, partition or the various entity boundaries to define above-mentioned entity area.In the mistake for defining virtual region Cheng Zhong, since its boundary may not necessarily continuously and completely define a block, for example, indoors in design drawing, a tool There is the meeting room of door and window, block can then have to the notch answered the door with window.And indoors in design drawing, one need to be via electricity Closed basement that is terraced and arriving at its central location, then its block can not have notch.

Therefore, in embodiments of the present invention, whether reading unit 210 further differentiates in environment plan view and has by more The completely enclosed block that a boundary is constituted, when having completely enclosed block in environment plan view, then by completely enclosed block It is determined as virtual region.Wherein, completely enclosed block can be the block without notch.Reading unit 210 also can be more into one Whether step differentiates has partly open block in environment plan view, and this partly open block has a notch, and notch is opposite The ratio on the boundary belonging to notch is less than a critical value.When reading unit 210 determines there is above-mentioned condition in environment plan view Partly open block when, then partly open block is determined as virtual region.

For example, when notch is then read when ratio is less than 1/3 (i.e. critical value) relative to boundary belonging to notch Unit 210 can determine that this notch should be to answering the door or the notch of window.Whereby, in environment plan view, reading unit 210 can be by this Block with relatively small notch is considered as virtual region.On the contrary, when notch is relative to boundary belonging to notch, ratio When more than or equal to 1/3, then reading unit 210 can determine that boundary belonging to its notch should be insufficient as defining virtual region Boundary.Above-mentioned critical value can be other numerical value, visual practical experience and adjust, it is without restriction herein.

In addition, in order to avoid user does not conform in the configuration process of the first virtual-sensor and the second virtual-sensor The case where reason, in embodiments of the present invention, comparing unit 240, can be according still further to multiple boundaries and an at least virtual areas Domain, to judge whether multiple first allocation positions and multiple second allocation positions are normal.

In general, either simulated for wall, partition or various entity boundaries come the sensing of the ambient condition carried out, Meaningless operation can be all judged as.In other words, when the first allocation position and the second allocation position are located at environment plan view In boundary on when, then this may be inaccurate in artificial configuration.Therefore, in embodiments of the present invention, comparing unit 240 is more Further judge whether multiple first allocation positions are located on multiple boundaries, when multiple first allocation positions are located on multiple boundaries When, then the second alarm signal is issued, and judge whether multiple second allocation positions are located on multiple boundaries, matched when multiple second When seated position is located on multiple boundaries, then third alarm signal is issued.Second alarm signal and third alarm signal can be point Not in issued on the first virtual-sensor of correspondence and the second virtual-sensor flash signal or other kinds of prompt letter Number.

Further, since sensor 101 ~ 120 is all arranged in entity area, if therefore user configuration process In, when not being configured at the first virtual-sensor of respective sensor 101 ~ 120 in corresponding virtual region, it should can be judged as Abnormal operation.Therefore, in embodiments of the present invention, comparing unit 240 also can further judge multiple first allocation positions Whether it is located in an at least virtual region, when multiple first allocation positions are not located in an at least virtual region, then issues the Four alarm signals.

In addition, as noted previously, as processing unit 230 can be according to the sensing result of sensor 101 ~ 120 in entity area Interpolation algorithm is executed, to generate simulation data.Therefore, in configuration process, when the second allocation position is not configured at pair When answering in the virtual region of entity area, then can represent the simulated result of its correspondence may have biggish error.Whereby, In embodiments of the present invention, it is virtual also can further to judge whether multiple second allocation positions are located at least one for comparing unit 240 In region, when multiple second allocation positions are not located in an at least virtual region, then the 5th alarm signal is issued.4th warning Signal can be with the 5th alarm signal to be flashed respectively at sending on corresponding the first virtual-sensor and the second virtual-sensor Signal or other kinds of standby signal.

2nd figure is the system architecture diagram according to the electric power management system of one of present invention embodiment.As shown in Fig. 2, one Environment sensing device 10 includes one or more sensors 11, one or more ammeters 12 and one first wireless node apparatus 13, is somebody's turn to do Information is conveyed to first wireless node apparatus 13 after sensing to site environment by sensor 11, which will use telecommunications Breath is conveyed to first wireless node apparatus 13；One air-conditioning device 20 includes one or more frequency converters 21, a procedure logical control system Device 22, one second wireless node apparatus 23；One coordinator 30 receives and comes from first wireless node apparatus 13 and second nothing Wireless communication technique and wireless node apparatus 13 and the second nothing preferably can be used in the information of line node apparatus 23, the coordinator 30 Line node apparatus 23 is communicated, which can pass through first wireless node apparatus 13 and second radio node dress It sets 23 pairs of sensors 11, ammeter 12, frequency converter 21 or program logic controller 22 and assigns specified, such as require real time readouts or change More setting value；One central host 40 receives the information for coming from the coordinator 30, and can convey and specify to the coordinator 30；One energy Source control host 50 counts and analyzes the information for receiving and coming from the central host 40, and based on the analysis results to the central host 40 assign management instruction, which carries out the environment sensing device 10 or the air-conditioning device 20 through the coordinator 30 Management；And a terminal device 60, receive the first information from the central host 40 and from the energy management host 50 it Second information is simultaneously shown on a screen；Wherein, which is from the sensor, the ammeter or the procedure logical control system The timely reading of device, second information are the environment or power information by operation or statistics.

In embodiments of the present invention, each sensor 11 is set to an at least entity area with 12 system of ammeter, and terminal is set Standby 60 further read environment plan view, and to generate multiple first virtual-sensors, and every one first virtual-sensor system closes It is coupled to one of multiple sensors 11 and ammeter 12, and terminal device 60 configures signal according to first come empty by multiple first Quasi- sensor is configured at multiple first allocation positions on environment plan view.Terminal device 60 is more received from multiple sensors 11 With the sensing result of ammeter 12, and sensing result is shown through multiple first virtual-sensors.Terminal device 60 can also be into one Step judges whether sensing result is normally, when sensing result is abnormal, then to issue the first alarm signal.

3rd figure is the flow chart according to the data processing method of one of present invention embodiment.The data of the embodiment of the present invention Processing method is suitable for multiple sensors 101 ~ 120, and each sensor system is set to an at least entity area.The data processing Method includes step S310 ~ S350.

In step s310, reading unit 210 reads environment plan view.In step s 320, build unit 220 generate it is more A first virtual-sensor, every one first virtual-sensor system are associated with one of multiple sensors, and according to the first configuration Multiple first virtual-sensors are configured at multiple first allocation positions on environment plan view by signal.In step S330, Processing unit 230 receives the sensing result from multiple sensors, and senses knot through multiple first virtual-sensors to show Fruit.In step S340, comparing unit 240 judges whether sensing result is normal.In step S350, when comparing unit 240 When determining that sensing result is abnormal, then the first alarm signal is issued.The details of step S310 ~ S350 all has been described in, in this It repeats no more.

In conclusion indoor design figure can be converted to environment plan view using the background as monitoring interface by the present invention, and Determine boundary therein and virtual region.In addition, can be by the first virtual-sensor of configuration in environment plan view, to monitor Corresponding sensor in entity area, and by the second virtual-sensor of configuration in environment plan view, to show correspondence Analog result.The present invention can also depict isopleth according to simulation data in environment plan view, such as by temperature, humidity Data carry out operation via the environment plan view that is picked out using internal difference method and reading unit of processing unit 230 to draw temperature The isopleth of degree, humidity, and this isopleth is shown in terminal device 60, thus user can build this each of object Place's temperature, humidity conditions have clear grasp.In a preferred embodiment, it is indicated in different colors not in terminal device 60 Synthermal and humidity regions.When sensing result exception, then a capable of emitting corresponding alarm signal.The first virtual-sensor with In the configuration process of second virtual-sensor, when corresponding allocation position is unreasonable, then capable of emitting corresponding another warning is believed Number.Whereby, it is improper to the configuration of virtual-sensor that user can be excluded, and if be arranged to work as, it can intuitively grasp sensor Relative position, and can effectively and the ambient condition to arround is monitored and simulates in real time, further reach saving energy Source and the convenience supported the family and comfortable effect.

In addition, the present invention separately has one schematic diagram/correct proportions ruler switched design.By the environment plan view that uses in order to It allows user convenient for viewing, indicates commonly using schematic diagram rather than drawn using correct proportions ruler, therefore the present invention is another Include one schematic diagram/correct proportions ruler handoff functionality.User can pass through terminal device 60 and carry out handoff environment plan view for signal Chart-pattern or correct proportions ruler mode, when being at present signal chart-pattern, it is virtual that the first virtual-sensor will be automatically placed in first The center in region makes manager that can quickly understand region belonging to the first virtual-sensor.Once switching to correct proportions ruler mould When formula, the first virtual-sensor will be accurately placed in the specified position of the first configuration signal, and it is wet to calculate isothermal/wait automatically Line.

In a kind of embodiment of the present invention, separately there is an environment plan view to build unit (not shown), to allow user The environment plan view with vector value is established manually, and thus just environment plan view is read out without reading unit. Those vector values can be used to indicate that a virtual region corresponds to the boundary in real field region.

In a kind of embodiment of the present invention, multiple sensors 101 ~ 120 have micro- positioning (micro-location) it Function can carry out indoor positioning to this action device according to the wireless signal that a running gear (not shown) issues.Such one Come, terminal device 60 can show that sensing result and this action are installed on environment plan view, thus can accurately be learnt simultaneously The state of temperature that the position of Field Force and the personnel experience.

In a kind of embodiment of the present invention, manager can pass through the shown environment plan view of terminal device 60, directly The sensing result for clicking multiple sensors 101 ~ 120 of display on picture sets alarm upper lower limit value to the sensing result, such as An alarm signal to terminal device 60, or starting field alert device is transmitted if carbon dioxide values are more than 1% alerts live people Member.

Although the present invention is disclosed above with aforementioned embodiment, however, it is not to limit the invention.This hair is not being departed from It in bright spirit and scope, changes and retouches for it, belongs to the scope of patent protection of the present invention.It is defined about the present invention Protection scope please refers to appended claim.

Claims (14)

1. a kind of data processing system characterized by comprising

Multiple sensors, each sensor system are set to an at least entity area；And

One information processing unit, comprising:

One reading unit to read an environment plan view, and recognizes the multiple boundaries read in the environment plan view, those sides The environment plan view is divided into an at least virtual region by boundary, which corresponds to an at least entity area；

One builds unit, couples the reading unit, to generate multiple first virtual-sensors, and the virtual biography of generation multiple second Sensor, each first virtual-sensor system are associated with one of those sensors, and according to one first configuration signal come by Those first virtual-sensors are configured at multiple first allocation positions on the environment plan view, and according to one second configuration signal Multiple second allocation positions those second virtual-sensors being configured on the environment plan view；

One processing unit, couples the reading unit and this builds unit, to receive the sensing result from those sensors, And those first virtual-sensors are penetrated to show the sensing result, and a simulation data is generated according to the sensing result, and Multiple first analog results are obtained according to the simulation data and those second allocation positions, through those the second virtual biographies Sensor shows those corresponding first analog results；And

One comparing unit, couple the reading unit, this build unit and the processing unit, whether to judge the sensing result To be normal, when the sensing result is abnormal, then one first alarm signal is issued, and the comparing unit is according still further to those Boundary and an at least virtual region, to judge whether those first allocation positions and those second allocation positions are positive Often.

2. data processing system as described in claim 1, which is characterized in that the comparing unit further judge those first Whether allocation position is located on those boundaries, when those first allocation positions are located on those boundaries, then it is alert to issue one second Show signal, and judge whether those second allocation positions are located on those boundaries, when those second allocation positions are located at those When on boundary, then a third alarm signal is issued.

3. data processing system as claimed in claim 2, which is characterized in that the comparing unit further judge those first Whether allocation position is located in an at least virtual region, when those first allocation positions are not located in an at least virtual region When, then one the 4th alarm signal is issued, and judge whether those second allocation positions are located in an at least virtual region, when When those second allocation positions are not located in an at least virtual region, then one the 5th alarm signal is issued.

4. data processing system as described in claim 1, which is characterized in that the reading unit further differentiates that the environment is flat Whether there is the completely enclosed block being made of those boundaries in the figure of face, when completely enclosed with this in the environment plan view When block, then this is completely enclosed into block and be determined as the virtual region.

5. data processing system as claimed in claim 4, which is characterized in that the reading unit further differentiates that the environment is flat Whether there is a partly open block, which has a notch, and the notch is relative to the notch institute in the figure of face One ratio on the boundary of category is less than a critical value, when having the partly open block in the environment plan view, then by the office The open block in portion is determined as the virtual region.

6. data processing system as described in claim 1, which is characterized in that the processing unit is according still further to the sensing knot Fruit executes an interpolation algorithm, and so as to generating the simulation data, and the corresponding simulation data is marked on the environment plan view An at least isopleth.

7. data processing system as claimed in claim 6, which is characterized in that the processing unit is provided according still further to the simulation Material and a slider position show corresponding one second analog result.

8. a kind of data processing method is suitable for multiple sensors, each sensor system is set to an at least entity area, It is characterized in that, the data processing method includes:

An environment plan view is read, multiple boundaries in the environment plan view are read, those boundaries divide the environment plan view It is an at least virtual region, which corresponds to an at least entity area；

Multiple first virtual-sensors are generated, each first virtual-sensor system is associated with one of those sensors, and Those first virtual-sensors are configured to multiple first configuration bits on the environment plan view according to one first configuration signal It sets, and generates multiple second virtual-sensors, and be configured at those second virtual-sensors according to one second configuration signal Multiple second allocation positions on the environment plan view；

The sensing result from those sensors is received, and penetrates those first virtual-sensors to show the sensing result, and A simulation data is generated according to the sensing result；

Judge whether the sensing result is normal；

When the sensing result is abnormal, then one first alarm signal is issued；According to the simulation data and those second configurations Position obtains multiple first analog results, to show those corresponding the first simulation knots through those second virtual-sensors Fruit；And

According to those boundaries and an at least virtual region, to judge those first allocation positions and those second configuration bits Whether set is normal.

9. data processing method as claimed in claim 8, which is characterized in that according to those boundaries and this is at least one virtual Region, to judge whether those first allocation positions and those second allocation positions are in normal step, comprising:

Judge whether those first allocation positions are located on those boundaries, when those first allocation positions are located on those boundaries When, then issue one second alarm signal；And

Judge whether those second allocation positions are located on those boundaries, when those second allocation positions are located on those boundaries When, then issue a third alarm signal.

10. data processing method as claimed in claim 9, which is characterized in that according to those boundaries and at least one void Quasi- region, to judge whether those first allocation positions and those second allocation positions are in normal step, comprising:

Judge whether those first allocation positions are located in an at least virtual region, when those first allocation positions are not located at this When in an at least virtual region, then one the 4th alarm signal is issued；And

Judge whether those second allocation positions are located in an at least virtual region, when those second allocation positions are not located at this When in an at least virtual region, then one the 5th alarm signal is issued.

11. data processing method as claimed in claim 10, which is characterized in that those sides in the reading environment plan view After the step of boundary, further include:

Differentiate in the environment plan view whether there is the completely enclosed block being made of those boundaries, when the environment plan view In when there is the completely enclosed block, then this is completely enclosed into block and is determined as the virtual region.

12. data processing method as claimed in claim 11, which is characterized in that those sides in the reading environment plan view After the step of boundary, further include:

Differentiate whether there is a partly open block in the environment plan view, which has a notch, and this is lacked Mouthful relative to the boundary belonging to the notch a ratio less than a critical value, when having the partly open in the environment plan view When block, then the partly open block is determined as the virtual region.

13. data processing method as claimed in claim 8, which is characterized in that further include:

An interpolation algorithm is executed according to the sensing result, so as to generating the simulation data, and the corresponding simulation data is in the ring An at least isopleth is marked on the plan view of border.

14. data processing method as claimed in claim 13, which is characterized in that further include:

Corresponding one second analog result is shown according to the simulation data and a slider position.