CN106293062A - Data management method and data supervision system - Google Patents
Data management method and data supervision system Download PDFInfo
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- CN106293062A CN106293062A CN201610586626.4A CN201610586626A CN106293062A CN 106293062 A CN106293062 A CN 106293062A CN 201610586626 A CN201610586626 A CN 201610586626A CN 106293062 A CN106293062 A CN 106293062A
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/011—Arrangements for interaction with the human body, e.g. for user immersion in virtual reality
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B1/00—Details of transmission systems, not covered by a single one of groups H04B3/00 - H04B13/00; Details of transmission systems not characterised by the medium used for transmission
- H04B1/38—Transceivers, i.e. devices in which transmitter and receiver form a structural unit and in which at least one part is used for functions of transmitting and receiving
- H04B1/3827—Portable transceivers
- H04B1/385—Transceivers carried on the body, e.g. in helmets
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F2203/00—Indexing scheme relating to G06F3/00 - G06F3/048
- G06F2203/01—Indexing scheme relating to G06F3/01
- G06F2203/011—Emotion or mood input determined on the basis of sensed human body parameters such as pulse, heart rate or beat, temperature of skin, facial expressions, iris, voice pitch, brain activity patterns
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- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
- Theoretical Computer Science (AREA)
- Computer Networks & Wireless Communication (AREA)
- Signal Processing (AREA)
- Human Computer Interaction (AREA)
- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Mobile Radio Communication Systems (AREA)
Abstract
The open a kind of data management method of the present invention and data supervision system, in data supervision system, main frame is by the target measurement equipment in transceiver transmission reading data requirement to multiple measurement equipment.When judging that transceiver cannot receive survey data from target measurement equipment within the scheduled period, main frame judges disconnecting event occur and disengage the interconnection resources of transceiver.
Description
Technical field
The present invention relates to a kind of data management method and data supervision system, particularly relate to promote data efficiency and line
The data management method of quality and data supervision system.
Background technology
Wearable device has light and handy characteristic easily, it is simple to user is carried with frequently to operate its application program.
In recent years for motion, body-building and care related fields develop various can with the Wearable measurement apparatus of monitoring of physiologic signal,
Such as can measure wearer breathing, heart beating or body action.
Data supervision system based on Wearable measurement apparatus can be applicable to many different occasions, such as in gymnasium
In, every member can record exercise heart rate change at any time with smart watch.But, because Wearable measurement apparatus possesses
How high mobility characteristic, promote data supervision system and the resource efficiency of method thereof and line quality becomes important topic.
Summary of the invention
It is an object of the invention to provide a kind of data management method and data supervision system, its can promote data efficiency and
Line quality.
For reaching above-mentioned purpose, the present invention provides a kind of data management method, comprises:
Host-initiated first transceiver;
This main frame is set by the first measurement in this first transceiver transmission the first reading data requirement to M measurement equipment
Standby, wherein M is the integer more than 1;
This main frame judges whether this first transceiver can receive from this first measurement equipment within the first scheduled period
One survey data;And
When judge this first transceiver cannot within this first scheduled period from this first measurement equipment receive this first
During survey data, this main frame judges disconnecting event occur and disengage the interconnection resources of this first transceiver.
It is also preferred that the left also include:
After disengaging the interconnection resources of this first transceiver, this main frame judges whether this first transceiver is already attached to this
Exceeding N number of measurement equipment in M measurement equipment, wherein N is positive integer no more than;
When judging that this first transceiver is already attached to exceed N number of measurement equipment in this M measurement equipment, this main frame opens
Dynamic second transceiver;And
This main frame is by the first measurement in this second transceiver transmission the second reading data requirement to this M measurement equipment
Equipment.
It is also preferred that the left also include:
This main frame judges whether this second transceiver can receive from this first measurement equipment within the second scheduled period
Two survey datas;And
When judge this second transceiver cannot within this second scheduled period from this first measurement equipment receive this second
During survey data, this main frame judges this disconnecting event occur and disengage the interconnection resources of this second transceiver.
It is also preferred that the left also include:
After disengaging the interconnection resources of this first transceiver, this main frame judges whether this first transceiver is already attached to this
Exceeding N number of measurement equipment in M measurement equipment, wherein N is the positive integer of no more than M;And
When judging that this first transceiver is not yet connected to exceed N number of measurement equipment in this M measurement equipment, this main frame leads to
Cross this first transceiver to send the second reading data requirement and measure equipment to second in this M measurement equipment.
It is also preferred that the left also include:
This main frame judges whether this first transceiver can receive from this second measurement equipment within this first scheduled period
Second survey data;And
When judge this first transceiver cannot within this first scheduled period from this second measurement equipment receive this second
During survey data, this main frame judges this disconnecting event occur and disengage the interconnection resources of this first transceiver.
It is also preferred that the left also include:
By being used for, this main frame judges that the marginal value of line quality is set to initial value;
Before this first reading data requirement of transmission to this first measurement equipment, this main frame judges this first measurement equipment
Signal strength whether more than this marginal value;And
When judge this first measure equipment signal strength be not higher than this marginal value time, this main frame this marginal value is increased into
Adjusted value not less than this initial value.
It is also preferred that the left also include:
When judging that this first signal strength measuring equipment is more than this marginal value, this main frame sends this first reading data
Require to this first measurement equipment;
Send this first read data requirement to after this first measurement equipment and judge this first transceiver can this
In one scheduled period after this first measurement equipment receives this first survey data, this main frame judges whether from this first survey
Amount equipment receives continuous K survey data, and wherein K is the integer more than 1;And
When judging to receive this continuous K survey data from this first measurement equipment, this marginal value is set to this first
Initial value.
For reaching above-mentioned purpose, the present invention also provides for a kind of data supervision system, comprises:
M measurement equipment, wherein M is the integer more than 1;
First transceiver;
Second transceiver;And
Main frame, is used for by first in this first transceiver transmission the first reading data requirement to this M measurement equipment
Measurement equipment;Judge whether this first transceiver can receive the first measurement from this first measurement equipment within the first scheduled period
Data;And when judge this first transceiver cannot within this first scheduled period from this first measurement equipment receive this first
During survey data, this main frame judges disconnecting event occur and disengage the interconnection resources of this first transceiver.
It is also preferred that the left after disengaging the interconnection resources of this first transceiver, this main frame is additionally operable to judge that this first transceiver is
No being already attached in this M measurement equipment exceedes N number of measurement equipment, and wherein N is the positive integer of no more than M;
When judging that this first transceiver is already attached to exceed N number of measurement equipment in this M measurement equipment, this main frame is also
For starting second transceiver and sending the second reading data requirement to the in this M measurement equipment by this second transceiver
One measures equipment;And
When judging that this first transceiver is not yet connected to exceed N number of measurement equipment in this M measurement equipment, this main frame is also
Second data requirement is read to the second measurement equipment in this M measurement equipment for being sent this by this first transceiver.
It is also preferred that the left this main frame is additionally operable to for judging that the marginal value of line quality is set to initial value;Send this first
Reading data requirement to before this first measurement equipment, this main frame is additionally operable to judge whether this first measure the signal strength of equipment
More than this marginal value;And when judging that this first measurement equipment volume signal strength is not more than this marginal value, this main frame is additionally operable to
This marginal value is increased as the adjusted value not less than this initial value.
It is also preferred that the left when judging that this first signal quality measuring equipment is more than this marginal value, this main frame is additionally operable to send
This first reading data requirement is to this first measurement equipment;After this first reading data requirement of transmission to this first measurement equipment
And judge this first transceiver can within this first scheduled period after this first measurement equipment receives this first survey data,
This main frame is additionally operable to judge whether receive continuous K survey data from this first measurement equipment, and wherein K is whole more than 1
Number;And when judging to receive this continuous K survey data from this first measurement equipment, this main frame is additionally operable to this critical
Value is set to this initial value.
It is also preferred that the left this first transceiver and this second transceiver are bluetooth universal serial bus adapter, Wireless USB switching
Device or infrared ray USB adapter.
Compared with prior art, the present invention can be applicable to any data management system based on Wearable measurement apparatus
System, such as, allow every member dress measurement equipment to record exercise heart rate change at any time in gymnasium.Data of the present invention
Management method can first guarantee that the line quality between target measurement equipment and transceiver is satisfied the criteria, and retransmits reading data requirement
To target measurement equipment.When the wearer of target measurement device leaves communication context for some reason, data management method of the present invention can
The target measurement device avoiding interconnection resources to be occupied outside attempting with communication context sets up line.Therefore, the present invention can promote
The resource efficiency of data supervision system and line quality.
Accompanying drawing explanation
Fig. 1 is the function block schematic diagram of the data supervision system of the embodiment of the present invention.
Fig. 2 is the flow chart of the data management method of the embodiment of the present invention.
Detailed description of the invention
For making the purpose of the present invention, structure, feature and function thereof are had further understanding, hereby coordinate embodiment specifically
Bright as follows.
Fig. 1 is the function block schematic diagram of the data supervision system 100 of the embodiment of the present invention.Data supervision system 100 wraps
Containing first transceiver 10, second transceiver 20, main frame 30, display device 40 and M measurement equipment BT1-BTM(M is more than 1
Integer).
In the present invention, equipment BT is measured1-BTMThe body-worn medical measurement apparatus such as wrist-watch, necklace or ring can be fabricated to,
Therefore the health of wearer can be monitored whenever and wherever possible.The survey data that each measurement equipment obtains can be the heart of wearer
Electric signal, blood pressure, blood oxygen, body temperature, E.E.G, skin conductivity or movable signal etc..But, measure equipment BT1-BTMKind sum
Mesh does not limit scope of the invention.
In the present invention, first transceiver 10 and second transceiver 20 can be bluetooth universal serial bus adapter
(Bluetooth USB dongle), Wireless USB adapter (WiFi USB dongle), infrared ray USB adapter (WiFi
USB dongle) or other adapters.In other embodiments, data supervision system 100 also can comprise more transceiver.
But, the kind of transceiver and number do not limit scope of the invention.
In the present invention, main frame 30 can be desktop PC, mobile computer, mini-computer or during other possesses
The device of central processor operational capability.Main frame 30 can be by first transceiver 10 and second transceiver 20 and measurement equipment BT1-BTM
Set up line, and then receive measurement equipment BT1-BTMThe survey data obtained.But, the kind of main frame 30 does not limit the present invention
Category.
In the present invention, display device 40 can use liquid crystal display (liquid crystal display, LCD), electricity
Plasma display (plasma display panel, PDP), light emitting diode indicator (light emitting diode), have
Machine light emitting diode indicator (organic light emitting display, OLED), Field Emission Display (field
Emission display, FED) or electrophoresis move the technology such as display (electro-phoretic display, EPD), can make
It is made the devices such as computer screen, TV screen, mobile phone screen, scialyscope, billboard.But, the kind of display device 40 is also
Do not limit scope of the invention.
In embodiments of the present invention, main frame 30 and display device 40 are two self-contained units, the most in a wired or wireless fashion
Coupling, main frame 30 can will measure equipment BT1-BTMThe survey data transmitted is sent to display device 40 and is shown.In the present invention
In another embodiment, the built-in display device of main frame 30 40, therefore can will measure equipment BT1-BTMThe survey data transmitted directly exists
Shown in display device 40.But, the set-up mode of main frame 30 and display device 40 does not limit scope of the invention.
Fig. 2 is the flow chart of the data management method of the embodiment of the present invention, can perform following by data supervision system 100
Step:
Step 210: main frame 30 is selected one from M measurement equipment and measured equipment as target measurement equipment;Perform
Step 220.
Step 220: by being used for, main frame 30 judges that the marginal value of line quality is set to initial value;Perform step 230.
Step 230: main frame 30 judges that whether the signal strength of target measurement equipment is higher than marginal value;If so, step is performed
250;If it is not, perform step 240.
Step 240: marginal value is increased as the adjusted value not less than initial value and no more than higher limit by main frame 30;Perform step
Rapid 230.
Step 250: main frame 30 selectes first transceiver 10 as primary transceiver;Perform step 260.
Step 260: main frame 30 is sent by primary transceiver and reads data requirement to target measurement equipment;Perform step
270。
Step 270: main frame 30 judges whether primary transceiver can receive survey from target measurement equipment within the scheduled period
Amount data;If so, step 320 is performed;If it is not, perform step 280.
Step 280: main frame 30 judges disconnecting event occur and disengage the interconnection resources of primary transceiver;Perform step
290。
Step 290: main frame 30 judges that what whether primary transceiver be already attached in M measurement equipment exceedes N number of measurement
Equipment;If so, step 310 is performed;If it is not, perform step 300.
Step 300: main frame 30 selected another from M measurement equipment measures equipment as target measurement equipment;Hold
Row step 230.
Step 310: main frame 30 selectes second transceiver 20 as primary transceiver;Perform step 260.
Step 320: the survey data that display target measurement equipment is transmitted;Perform step 330.
Step 330: main frame 30 judges whether to receive continuous K survey data from target measurement equipment;If so, perform
Step 340;If it is not, perform step 300.
Step 340: marginal value is set to initial value by main frame 30;Perform step 300.
In step 210 and step 300, main frame 30 can be selected a measurement equipment from M measurement equipment and be used as mesh
Mapping amount equipment.In an embodiment, the manager of data supervision system 100 or operator can manually assign user instruction, with
Requiring the one or more particular measurement equipment measurement reporting data in M measurement equipment, therefore, main frame 30 can sequentially will use
Person instructs indicated one or more particular measurement equipment and is set to target measurement equipment.In another embodiment, main frame 30 can
Come termly according to the procedure code of its internal memory, at special time or require in M measurement equipment one or more specific randomly
Measurement equipment measurement reporting data, therefore, the one or more particular measurement indicated by its internally stored program code can be set by main frame 30
For being set to target measurement equipment.But, main frame 30 selected target is measured the mode of equipment and is not limited scope of the invention.
In the present invention, step 220, step 230, step 240, step 330 and step 340 are present to ensure that measurement equipment
And the overall line quality between transceiver.Before main frame 30 transmission reading data requirement to target measurement equipment, can be in step
Rapid 220 and step 230 in first use be set to the marginal value of initial value to assess the line quality of target measurement equipment.When judging mesh
When the signal strength of mapping amount equipment is not higher than marginal value, marginal value can be set to not less than initial by main frame 30 in step 240
The adjusted value of value and no more than higher limit, performs step 230 the most again and is set to the marginal value of adjusted value to assess target to use
The on line quality of measurement equipment.(the K when judging to receive continuous K survey data from target measurement equipment in a step 330
Integer for more than 1), marginal value can be set to initial value in step 340 by main frame 30 again.Wherein, the design of K value is by designer
Depending on member is according to practical situation, such as, can be 2,3,4 etc., not repeat them here.
In embodiments of the present invention, the signal strength of target measurement equipment can be to receive signal strength instruction (received
Signal strength indicator, RSSI) parameter, the company between value the biggest representative measurement equipment and the transceiver of RSSI
Line quality is the best.But, it is used for assessing the parameter of line quality between measurement equipment and transceiver and does not limit the model of the present invention
Farmland.
As an example it is assumed that measurement equipment BT selected the most in step 210 by main frame 301Come as target measurement equipment,
The initial value of marginal value is-95dBm, and higher limit is-82dBm.If measuring equipment BT1RSSI less than-95dBm, it may
The reading data requirement that main frame 30 sends cannot be received smoothly, and main frame 30 is likely to cannot receive measurement equipment smoothly
BT1The survey data of passback.Therefore, main frame 30 can in step 240 marginal value is increased into not less than initial value and be not more than
The adjusted value (such as-92dBm) of higher limit, will marginal value increase, and the marginal value after increasing is still in an interval range,
The substantially lower limit of interval range is previous marginal value, and the higher limit of interval range is constant.
Assume that measurement equipment BT selected the most in step 300 by main frame 302Come as target measurement equipment, and measure equipment
BT2RSSI not less than-92dBm, now main frame can perform subsequent step 250;If measuring equipment BT2RSSI less than-92dBm,
Now marginal value is set to adjusted value (such as-89dBm) by the repeatable step 240 of main frame.In other words, when M measurement equipment
BT1-BTMWhen overall signal strength is not good enough, the present invention can increase marginal value in step 240 so that main frame 30 only can send reading
Take data requirement to the target measurement equipment of higher RSSI.On the other hand, as M measurement equipment BT1-BTMOverall signal strength
Time very well, transmit survey data success rate the highest.When judging to have successfully received even from target measurement equipment in a step 330
During continuous K survey data, marginal value can be set to initial value by main frame in step 340.
When judging signal strength conformance with standard (i.e. higher than this marginal value) of target measurement equipment, main frame 30 can be in step
In 250, selected first transceiver 10 is as primary transceiver, and sends reading data by primary transceiver in step 260
Require to target measurement equipment.When judging that primary transceiver can connect from target measurement equipment within the scheduled period in step 270
When receiving survey data, now can show the measurement money that target measurement equipment is transmitted in step 320 in display device 40
Material.
When line between primary transceiver and target measurement equipment is unable to maintain that for some reason, target measurement equipment sends
Survey data may postpone or lose.In this condition, the present invention can judge that primary transceiver cannot be in step 270
Survey data is received from target measurement equipment in scheduled period.Now, during main frame 30 can judge to occur connecting in step 280
Disconnected event also disengages the interconnection resources of primary transceiver.Consequently, it is possible to the present invention can avoid main frame 30 persistently to wait target measurement
The response of equipment, causes the interconnection resources according to first transceiver 10 the most occupied, but data supervision system 100 in practice
Just as reactionless and reduce overall resource efficiency.
In step 290, if main frame 30 judges that what primary transceiver was already attached in M measurement equipment exceedes N number of survey
Amount equipment (N is the positive integer less than M), representative (cannot such as measure equipment BT from target measurement equipment1) it is properly received measurement
The reason of data is probably host side and is caused, such as primary transceiver (first transceiver 10) overload.This kind of situation
Under, the present invention can perform 310 to allow main frame 30 select second transceiver 20 as primary transceiver, the most again to perform step
260 to step 280 is to attempt sending reading data requirement to same target by other transceiver (second transceiver 20)
Measurement equipment (such as measures equipment BT1)。
In step 290, if main frame 30 judges that what primary transceiver was not connected in M measurement equipment exceedes N number of survey
Amount equipment, representative (cannot such as measure equipment BT from target measurement equipment1) reason that is properly received survey data is probably survey
Amount equipment end is caused, and such as target measurement equipment (measures equipment BT1) wearer leave for some reason primary transceiver (first receive
Send out device 10) effective communication scope.In this case, the present invention can perform 300 to allow main frame 30 select from M measurement equipment
Fixed another is measured equipment and (is such as measured equipment BT2) come as target measurement equipment, the most again perform step 230 to attempt
By same transceiver (first transceiver 10) send read data requirement to other target measurement equipment (measure equipment
BT2)。
To sum up, the present invention can be applicable to any data supervision system based on Wearable measurement apparatus, such as strong
Body room allow every member dress measurement equipment to record exercise heart rate change at any time.Data management method of the present invention can be first
Guarantee that the line quality between target measurement equipment and transceiver is satisfied the criteria, retransmit reading data requirement and set to target measurement
Standby.When the wearer of target measurement device leaves communication context for some reason, data management method of the present invention can avoid interconnection resources
The target measurement device being occupied outside attempting with communication context sets up line.Therefore, the present invention can promote data supervision system
Resource efficiency and line quality.
The present invention is been described by by above-mentioned related embodiment, but above-described embodiment is only the example implementing the present invention.
It must be noted that, the embodiment disclosed is not limiting as the scope of the present invention.On the contrary, without departing from the present invention spirit and
In the range of the change made and retouching, all belong to the scope of patent protection of the present invention.
Claims (12)
1. a data management method, it is characterised in that comprise:
Host-initiated first transceiver;
This main frame measures equipment by first in this first transceiver transmission the first reading data requirement to M measurement equipment,
Wherein M is the integer more than 1;
This main frame judges whether this first transceiver can receive the first survey from this first measurement equipment within the first scheduled period
Amount data;And
When judging that this first transceiver cannot receive this first measurement from this first measurement equipment within this first scheduled period
During data, this main frame judges disconnecting event occur and disengage the interconnection resources of this first transceiver.
2. data management method as claimed in claim 1, it is characterised in that also include:
After disengaging the interconnection resources of this first transceiver, this main frame judges whether this first transceiver is already attached to this M
Exceeding N number of measurement equipment in measurement equipment, wherein N is the positive integer of no more than M;
When judge that this first transceiver is already attached in this M measurement equipment when exceeding N number of measurement equipment, this host-initiated
Second transceiver;And
This main frame is set by this first measurement in this second transceiver transmission the second reading data requirement to this M measurement equipment
Standby.
3. data management method as claimed in claim 2, it is characterised in that also include:
This main frame judges whether this second transceiver can receive the second survey from this first measurement equipment within the second scheduled period
Amount data;And
When judging that this second transceiver cannot receive this second measurement from this first measurement equipment within this second scheduled period
During data, this main frame judges this disconnecting event occur and disengage the interconnection resources of this second transceiver.
4. data management method as claimed in claim 1, it is characterised in that also include:
After disengaging the interconnection resources of this first transceiver, this main frame judges whether this first transceiver is already attached to this M
Exceeding N number of measurement equipment in measurement equipment, wherein N is the positive integer of no more than M;And
When judging that this first transceiver is not yet connected to exceed N number of measurement equipment in this M measurement equipment, this main frame is by being somebody's turn to do
First transceiver sends the second reading data requirement and measures equipment to second in this M measurement equipment.
5. data management method as claimed in claim 4, it is characterised in that also include:
This main frame judges whether this first transceiver can receive second from this second measurement equipment within this first scheduled period
Survey data;And
When judging that this first transceiver cannot receive this second measurement from this second measurement equipment within this first scheduled period
During data, this main frame judges this disconnecting event occur and disengage the interconnection resources of this first transceiver.
6. data management method as claimed in claim 1, it is characterised in that also include:
By being used for, this main frame judges that the marginal value of line quality is set to initial value;
Before this first reading data requirement of transmission to this first measurement equipment, this main frame judges the news of this first measurement equipment
Whether number intensity is more than this marginal value;And
When judging that this first signal strength measuring equipment is not higher than this marginal value, this marginal value is increased as the least by this main frame
Adjusted value in this initial value.
7. data management method as claimed in claim 6, it is characterised in that also include:
When judging that this first signal strength measuring equipment is more than this marginal value, this main frame sends this first reading data requirement
To this first measurement equipment;
First data requirement is read to after this first measurement equipment and judge that this first transceiver can be first pre-at this sending this
In periodically after this first measurement equipment receives this first survey data, this main frame judges whether to set from this first measurement
For receiving continuous K survey data, wherein K is the integer more than 1;And
When judging to receive this continuous K survey data from this first measurement equipment, this marginal value is set to this initial value.
8. a data supervision system, it is characterised in that comprise:
M measurement equipment, wherein M is the integer more than 1;
First transceiver;
Second transceiver;And
Main frame, is used for by the first measurement in this first transceiver transmission the first reading data requirement to this M measurement equipment
Equipment;Judge whether this first transceiver can receive the first measurement money from this first measurement equipment within the first scheduled period
Material;And when judging that this first transceiver cannot receive this first survey from this first measurement equipment within this first scheduled period
During amount data, this main frame judges disconnecting event occur and disengage the interconnection resources of this first transceiver.
9. data supervision system as claimed in claim 8, it is characterised in that disengaging the interconnection resources of this first transceiver
After, this main frame is additionally operable to judge that the N number of measurement that exceedes whether this first transceiver is already attached in this M measurement equipment sets
Standby, wherein N is the positive integer of no more than M;
When judge that this first transceiver is already attached in this M measurement equipment when exceeding N number of measurement equipment, this main frame is also used
In starting second transceiver and by first in this second transceiver transmission the second reading data requirement to this M measurement equipment
Measurement equipment;And
When judging that this first transceiver is not yet connected to exceed N number of measurement equipment in this M measurement equipment, this main frame is additionally operable to
Send this by this first transceiver and second read data requirement to the second measurement equipment in this M measurement equipment.
10. data supervision system as claimed in claim 9, it is characterised in that this main frame is additionally operable to for judging line product
The marginal value of matter is set to initial value;Before this first reading data requirement of transmission to this first measurement equipment, this main frame is also used
In judging whether this first signal strength measuring equipment is more than this marginal value;And when judging this first measurement equipment volume signal
When intensity is not more than this marginal value, this main frame is additionally operable to this marginal value be increased as the adjusted value not less than this initial value.
11. data supervision systems as claimed in claim 10, it is characterised in that when the signal product judging this first measurement equipment
When matter is more than this marginal value, this main frame is additionally operable to send this first reading data requirement to this first measurement equipment;Should sending
First reads data requirement to after this first measurement equipment and judge that this first transceiver can be from this within this first scheduled period
After first measurement equipment receives this first survey data, this main frame is additionally operable to judge whether to receive from this first measurement equipment
To continuous K survey data, wherein K is the integer more than 1;And it is continuous to judge to receive this from this first measurement equipment
During K survey data, this main frame is additionally operable to be set to this marginal value this initial value.
12. data supervision systems as claimed in claim 8, it is characterised in that this first transceiver and this second transceiver are
Bluetooth universal serial bus adapter, Wireless USB adapter or infrared ray USB adapter.
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