CN107645348A - Electronic installation and its operating method and non-transient computer-readable recording medium - Google Patents
Electronic installation and its operating method and non-transient computer-readable recording medium Download PDFInfo
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- CN107645348A CN107645348A CN201710444993.5A CN201710444993A CN107645348A CN 107645348 A CN107645348 A CN 107645348A CN 201710444993 A CN201710444993 A CN 201710444993A CN 107645348 A CN107645348 A CN 107645348A
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Abstract
The invention discloses a kind of electronic installation and its operating method and non-transient computer-readable recording medium, the operating method of electronic installation includes:Obtain the signal intensity connected between multiple nodes;And connection is shown according to signal intensity figure.User of the present invention by electronic installation, can quickly learn the signal intensity of the connection between node.
Description
Technical field
The present invention relates to a kind of electronic installation, the operating method of electronic installation and non-transient computer-readable recording medium.
Background technology
With the development of science and technology, electronic installation has been widely used among the life of people, such as tablet personal computer, intelligence
Type mobile phone etc..
Electronic installation may be connected to network (such as wireless network or Internet of Things).Network may include multiple network nodes.
The content of the invention
It is an object of the invention to provide a kind of electronic installation for the signal intensity that can quickly learn the connection between node
And its operating method and non-transient computer-readable recording medium.
The present invention provides a kind of electronic installation, and it includes display element and treatment element.Treatment element is electrically connected with aobvious
Show element, and to perform following steps:Obtain the signal intensity connected between multiple nodes;And control display element is according to letter
Show connection number intensity pattern.
The present invention separately provides a kind of operating method of electronic installation, including:The signal for obtaining the connection between multiple nodes is strong
Degree;And connection is shown according to signal intensity figure.
The present invention provides a kind of non-transient computer-readable recording medium again, this non-transient computer-readable recording medium note
At least one programmed instruction is recorded, this at least one programmed instruction performs the following steps after electronic installation is loaded:Obtain multiple sections
The signal intensity of connection between point;And connection is shown according to signal intensity figure.
By aforesaid operations, user by electronic installation, can quickly learn the signal intensity of the connection between node.
Brief description of the drawings
Fig. 1 is the schematic diagram of the electronic installation of one embodiment of the invention;
Fig. 2A, 2B are the operation chart of the electronic installation of one embodiment of the invention;
Fig. 3 A, 3B are the operation chart of the electronic installation of one embodiment of the invention;
Fig. 4 is the operation chart of the electronic installation of one embodiment of the invention;
Fig. 5 is the operation chart of the electronic installation of one embodiment of the invention;
Fig. 6 is the flow chart of the operating method of the electronic installation of one embodiment of the invention.
Embodiment
This will understood with the spirit of the clear explanation present invention of accompanying drawing and in detail narration, any those skilled in the art below
After the embodiment of invention, when can be changed and modified by the technology of teachings of the present invention, it is without departing from spirit of the invention
With scope.
Fig. 1 is the schematic diagram of the electronic installation 100 of one embodiment of the invention.In the present embodiment, electronic installation 100 includes
Treatment element 110 and display element 120.In the present embodiment, treatment element 110 is electrically connected with display element 120.
In the present embodiment, treatment element 110 be such as can use central processing unit (CPU), realization microprocessor, but not with
This is limited.Display element 120 can for example use liquid crystal display (liquid crystal display, LCD), active-matrix organic
The display element of light emitting diode indicator or other tool display capabilities is realized, but is not limited.
In one embodiment, electronic installation 100 may be connected to network 10 (such as wireless network, Internet of Things).Implement one
In example, network 10 may include multiple nodes.In one embodiment, the node available wireless mode in network 10 is connected to each other, but
It is not limited.In one embodiment, one or more of node that electronic installation 100 may be connected in network 10.
In one embodiment, treatment element 110 can be used to obtain the signal intensity of the connection between the node in network 10.
In one embodiment, the signal intensity of the connection between these nodes can be received signal strength index (received signal
Strength indicator, RSSI), the right present invention is not limited.In one embodiment, treatment element 110 can pass through company
Be connected to the node of electronic installation 100, obtain the signal intensity of the connection between the node in network 10, so the present invention not as
Limit, for example, treatment element 110 also can be by between the node in the central controller of remote server or network 10 acquirement network 10
Connection signal intensity.
In one embodiment, after the signal intensity of the connection between the node in obtaining network 10, treatment element 110 can be used
To control display element 120, the connection between these nodes is shown according to these signal intensity figures.
In one embodiment, treatment element 110 can be different according to being connected corresponding to difference between the node in network 10
Signal intensity, control display element 120 represent these connections with different figures.For example, treatment element 110 can be according to the first letter
Number intensity, the first connection of the first signal intensity is corresponded to the first figure shows, and according to secondary signal intensity, with the second figure
Shape shows the second connection corresponding to secondary signal intensity.Wherein the first signal intensity is different from secondary signal intensity, and first
Figure is different from second graph.
In one embodiment, treatment element 110 can be strong according to the signal corresponding to different connections between the node in network 10
Unlike signal intensity interval where spending, control display element 120 represent these connections with different figures.
For example, with reference to table 1.
Received signal strength index (RSSI) | Signal intensity | Represent figure |
- 30dBm~-50dBm | By force | Three straight lines |
- 50dBm~-70dBm | In | Two straight lines |
- 70dBm~-90dBm | It is weak | Straight line |
Table 1
In this example, the received signal strength index of the connection in corresponding to network 10 is between -30dBm~-50dBm
When, treatment element 110 can determine whether that the signal intensity of this corresponding connection is " strong ", and control display element 120 with three straight line tables
Show this connection.When the received signal strength index of the connection in corresponding to network 10 is between -50dBm~-70dBm, processing elements
Part 110 can determine whether signal intensity of this corresponding connection for " in ", and control display element 120 to represent this connection with two straight lines.
When the received signal strength index of the connection in corresponding to network 10 is between -70dBm~-90dBm, treatment element 110 can be sentenced
The disconnected signal intensity for corresponding to this connection is " weak ", and controls display element 120 to represent this connection with straight line.It should be noted that
Example above is only explained, and the present invention is not limited.In different embodiments, thick straight line also can use to represent that signal intensity is
The connection of " strong ", with the moderate straight line of thickness represent signal intensity for " in " connection, and represent that signal intensity is with thin straight line
The connection of " weak ".
The Fig. 2A that arranges in pairs or groups is carried out to the explanation of an of the invention operation example below to understand explanation, so the present invention not as
Limit.
In the present embodiment, treatment element 110 can control display element 120, strong according to the first signal between node N1, N2
Degree (such as -40dBm), the connection between node N1, N2 is represented with the first figure F1 (such as three straight lines), and according between node N2, N3
Secondary signal intensity (as -80dBm), the connection between node N2, N3 is represented with second graph F2 (such as straight line).
To understand explanation, Fig. 2 B that will arrange in pairs or groups below carry out the explanation of another embodiment of the present invention, so the present invention not as
Limit.
In the present embodiment, treatment element 110 can control display element 120, strong according to the first signal between node N1, N2
Degree (as -40dBm) represents the connection between node N1, N2 with the first figure F1 (such as three straight lines), according to the between node N2, N3
Binary signal intensity (such as -120dBm) represents that the connection between node N2, N3 (is represented and almost do not had with second graph F2 (a such as dotted line)
Have signal intensity), and according to the 3rd signal intensity (such as -60dBm) between node N2, N4 with the 3rd figure F3 (such as two articles of straight lines)
Represent the connection between node N2, N4.
By aforesaid operations, user by electronic installation 100, can quickly learn the signal intensity of the connection between node.
In one embodiment, treatment element 110 can be used to obtain the frequency range utilization rate of the connection between the node in network 10.
In one embodiment, treatment element 110 can first obtain the frequency range and flow of the connection between the node in network 10, further according to network
The frequency range and flow of the connection between node in 10, obtain the frequency range utilization rate of the connection between the node in network 10, this right hair
It is bright to be not limited.
In one embodiment, treatment element 110 can be obtained in network 10 by the node being connected with electronic installation 100
The frequency range utilization rate (or above-mentioned frequency range and flow) of connection between node, the right present invention is not limited, for example, treatment element
110 frequency ranges that the connection between the node in network 10 can be also obtained by the central controller of remote server or network 10 use
Rate (or above-mentioned frequency range and flow).
In one embodiment, after the frequency range utilization rate of the connection between the node in obtaining network 10, treatment element 110 can
According to frequency range utilization rate control display element 120 coloration show connection between these nodes.
In one embodiment, treatment element 110 can be different according to being connected corresponding to difference between the node in network 10
Frequency range utilization rate, control display element 120 represent these connections with different colors.For example, treatment element 110 can be according to first
Frequency range utilization rate with the first color show corresponding to the first frequency range utilization rate first connection, and according to the second frequency range utilization rate with
Second color shows the second connection corresponding to the second frequency range utilization rate.Wherein the first frequency range utilization rate and the second frequency range utilization rate
Difference, and the first color is different from the second color.
In one embodiment, treatment element 110 can make according to the frequency range corresponding to different connections between the node in network 10
With the different frequency range utilization rate sections where rate, control display element 120 represents these connections with different colors.
For example, with reference to table 2.
Frequency range utilization rate | Frequency range utilization rate | Represent color |
<40% | It is low | Green |
40%-70% | In | It is orange |
>70% | It is high | It is red |
Table 2
In the present embodiment, when the frequency range utilization rate of the connection in corresponding to network 10 is less than 40%, treatment element 110
The frequency range utilization rate that can determine whether to correspond to this connection is " low ", and controls display element 120 to represent that this is connected with green.When corresponding to
When the frequency range utilization rate of connection in network 10 is between 40%-70%, treatment element 110 can determine whether that the frequency range of this corresponding connection makes
With rate for " in ", and control display element 120 with it is orange represents this connection.The frequency range of connection in corresponding to network 10 uses
When rate is more than 70%, treatment element 110 can determine whether that the frequency range utilization rate of this corresponding connection is " height ", and control display element 120
Represent that this is connected with red.It should be noted that above example only explains, the present invention is not limited.
In one embodiment, treatment element 110 can be according to corresponding to the different unlike signal intensity connected in network 10
And different frequency range utilization rates, show graphical and colorationly between these nodes connection (such as:Different figures in different colors
Shape shows different connections).For example, treatment element 110 can according to the first signal intensity and the first frequency range utilization rate, with
First figure shows of the first color correspond to the first connection of the first signal intensity and the first frequency range utilization rate, and according to second
Signal intensity and the second frequency range utilization rate, shown with the second graph with the second color and correspond to secondary signal intensity and second
Second connection of frequency range utilization rate.Wherein the first signal intensity is different from secondary signal intensity and the first figure with second graph not
Together, or the first frequency range utilization rate is different from the second frequency range utilization rate and the first color is different with the second color.
To understand explanation, Fig. 3 A that will arrange in pairs or groups below carry out the explanation of one embodiment of the invention, so the present invention not as
Limit.
In the present embodiment, treatment element 110 can control display element 120, according to the first letter connected between node N1, N2
Number intensity (such as -40dBm) and first frequency utilization rate (such as 80%), with the first color (as red) and the first figure F1 is (such as
Three straight lines) connection between node N1, N2 is represented, and according to the secondary signal intensity connected between node N1, N2 (such as -80dBm)
And second frequency utilization rate (such as 30%), node is represented with the second color (such as green) and second graph F2 (such as straight line)
Connection between N2, N3.
By aforesaid operations, user by electronic installation 100, can quickly learn connection between node signal intensity and
Frequency range utilization rate.
On the other hand, in one embodiment, treatment element 110 can be used to obtain the state of the node in network 10 (as just
Normal running, firmware renewal, abnormal operation etc.).In one embodiment, treatment element 110 can be by being connected with electronic installation 100
Node, the state of the node in network 10 is obtained, the right present invention is not limited, for example, treatment element 110 also can be by long-range
The central controller of server or network 10 obtains the state of the node in network 10.
In one embodiment, after the state of the node in obtaining network 10, treatment element 110 can be used to control display member
Part 120, coloration ground or the state for graphically showing these nodes.For example, in node normal operation, this is shown with circle
Node, in node abnormal operation, this node is shown with triangle.In another example in node normal operation, this is shown with blueness
Node, in node abnormal operation, with this node of red display.
To understand explanation, Fig. 3 B that will arrange in pairs or groups below carry out the explanation of one embodiment of the invention, so the present invention not as
Limit.
In the present embodiment, treatment element 110 can control display element 120, according to node N1, N3 state (as normally
Running), node N1, N3 are shown with blueness, and according to node N2 state (such as abnormal operation), with red display node N2.This
Outside, treatment element 110 can control display element 120, according to the first signal intensity (such as -40dBm) between node N1, N2 with first
Figure F1 (such as three straight lines) represents the connection between node N1, N2, according between node N2, N3 secondary signal intensity (as-
120dBm), the connection (representative does not almost have signal intensity) between node N2, N3 is represented with second graph F2 (a such as dotted line),
And according to the 3rd signal intensity (as -60dBm) between node N1, N3, with the 3rd figure F3 (such as straight line) represent node N2,
Connection between N4.
By aforesaid operations, user by electronic installation 100, can quickly learn node state and node between connection
Signal intensity.
Operation example can also be combined with operation example in Fig. 3 A in Fig. 3 B.That is, treatment element 110 can be according to corresponding to network 10
In node between different connections different signal intensities and frequency range utilization rate and the state of the node in network 10, control
Display element 120 represents these connections with different figures, color, and represents these nodes with different figure or color.Phase
Close details and can refer to aforementioned paragraphs, therefore will not be described here.
In an embodiment of the present invention, except the connection between the display state of the interior joint of network 10, node signal intensity and
Outside frequency range utilization rate, treatment element 110 can also control display element according to the signal intensity of the connection between the interior joint of network 10
120, with the network topological diagram of the node in graphic software platform network 10.
In an embodiment of the present invention, treatment element 110 can be used to obtain the company for the node being respectively corresponding in network 10
The multiple signal intensities connect compare value.In one embodiment, the node in network 10 can be respectively compared the letter of connection corresponding to it
Number intensity, compares value to produce signal intensity.In one embodiment, treatment element 110 can be by being connected with electronic installation 100
Node, the signal intensity for obtaining each node in network 10 compare value, and the right present invention is not limited, for example, treatment element
110 signal intensities that each node in network 10 can be also obtained by the central controller of remote server or network 10 compare
Value.
In another embodiment, treatment element 110 can first obtain the signal intensity of the connection between the node in network 10, and
It is compared according to this, compares value to obtain the signal intensity of each node in network 10.
In one embodiment, the signal intensity for the node being respectively corresponding in network 10 being obtained in treatment element 110 compares
After value, treatment element 110 can compare value according to these signal intensities, obtain the network topological diagram of the node in network 10.Then,
Treatment element 110 can control display element 120, with the node in graphic software platform network 10 according to this network topological diagram
Network topological diagram.
There is provided collocation reference picture 4, Fig. 5 to an embodiment below, the right present invention is not limited.
In this operation example, network 10 has node N1-N3, and electronic installation 100 is connected to node N1 (with rectangle table
Show).Node N1-N3 network topological diagram may be one in network topological diagram TP1-TP3 shown in Fig. 4, network topological diagram
TP1-TP3 can show the arrangement mode and annexation between egress N1, N2, N3.Wherein, in network topological diagram TP1, node
N2 is between node N1, N3;In network topological diagram TP2, node N3 is between node N1, N2;In network topological diagram TP3
In, node N1 is between node N2, N3.
In this operation example, node N1-N3 is respectively compared the signal intensity of connection corresponding to it, to produce signal intensity ratio
Compared with value.For example, whether the signal intensity between node N1 comparison nodes N1 and node N3 is more than the signal between node N1 and node N2
Intensity;If so, then providing the signal intensity that numerical value is 1 compares value CMPA to electronic installation 100;If it is not, it is 0 then to provide numerical value
Signal intensity compares value CMPA to electronic installation 100.Whether the signal intensity between node N2 comparison nodes N2 and node N3 is more than
Signal intensity between node N2 and node N1;If so, then providing the signal intensity that numerical value is 1 compares value CMPB to electronic installation
100;If it is not, then providing the signal intensity that numerical value is 0 compares value CMPB to electronic installation 100.Node N3 comparison nodes N3 and section
Whether the signal intensity between point N1 is more than the signal intensity between node N3 and node N2;If so, it is strong then to provide the signal that numerical value is 1
Fiducial value CMPC is spent to electronic installation 100;If it is not, then providing the signal intensity that numerical value is 0 compares value CMPC to electronic installation
100。
In S1 is operated, the corresponding node N1 signal intensity that treatment element 110 judges compares whether value CMPA is 1.If so,
Carry out operation S2.If it is not, carry out operation S4.
In S2 is operated, the corresponding node N2 signal intensity that treatment element 110 judges compares whether value CMPB is 0.If so,
The decision node N1-N3 for the treatment of element 110 network topological diagram is network topological diagram TP3.If it is not, carry out operation S3.
In S3 is operated, the corresponding node N3 signal intensity that treatment element 110 judges compares whether value CMPC is 0.If so,
The decision node N1-N3 for the treatment of element 110 network topological diagram is network topological diagram TP2.If it is not, the decision node for the treatment of element 110
N1-N3 network topological diagram is network topological diagram TP3.
In S4 is operated, the corresponding node N2 signal intensity that treatment element 110 judges compares whether value CMPB is 1.If so,
The decision node N1-N3 for the treatment of element 110 network topological diagram is network topological diagram TP1.If it is not, carry out operation S5.
In S5 is operated, the corresponding node N3 signal intensity that treatment element 110 judges compares whether value CMPC is 0.If so,
The decision node N1-N3 for the treatment of element 110 network topological diagram is network topological diagram TP1.If it is not, the decision node for the treatment of element 110
N1-N3 network topological diagram is network topological diagram TP3.
Whereby, treatment element 110 can judge the decision node for the treatment of element 110 according to the signal intensity between node N1-N3
N1-N3 network topological diagram is which of network topological diagram TP1-TP3, and controls display element 120 to show node according to this
N1-N3 network topological diagram.
Above-mentioned numerical value and manner of comparison are only to illustrate, and those skilled in the art can be changed according to being actually needed.
Below by the operating method of the electronic installation in the Fig. 6 that arranges in pairs or groups, there is provided the present invention more specifically details.The right present invention is simultaneously
It is not limited with following embodiments.
Fig. 6 is a kind of flow chart of the operating method 200 of electronic installation of one embodiment of the invention.In one embodiment,
Operations described below method 200 of the present invention can be by a kind of non-transient computer-readable recording medium to realize, this non-transient computer can
At least one programmed instruction of recording medium is read, this at least one programmed instruction performs following after electronic installation is loaded
Step.Non-transient computer-readable recording medium can be read-only storage, flash memory, floppy disk, hard disk, CD, flash memory device,
Tape, can readily occur in the non-transient computer with identical function by the database of network access or those skilled in the art can
Read record media.Operating method 200 can be applied to the electronic installation of the same or similar structure shown in Fig. 1.And it is to make to chat
State simply, will carry out describing method by taking the electronic installation 100 in Fig. 1 as an example according to one embodiment of the invention below, this right hair
It is bright not to be limited with this application.
It will be understood that the operation of mentioned operating method 200 in the present embodiment, except especially chatting its bright order person
Outside, its tandem can be adjusted according to being actually needed, or even simultaneously or partially can performed simultaneously.
Furthermore in different embodiments, these operations also increase adaptability, replace or omitted.
In the present embodiment, operating method 200 includes following operation.
In T1 is operated, treatment element 110 obtains the signal intensity of the connection between the node of network 10.
In T2 is operated, treatment element 110 controls display element 120, and network 10 is shown according to signal intensity figure
Node between connection.
Detail on method 200 can refer to aforementioned paragraphs, therefore will not be described here.
By aforesaid operations, user by electronic installation 100, can quickly learn the signal intensity of the connection between node.
Although the present invention is disclosed as above with embodiment, so it is not limited to the present invention, any people in the art
Without departing from the spirit and scope of the present invention, when can make a little change and retouching, therefore protection scope of the present invention is when regarding by member
What claims were defined is defined.
Claims (11)
1. a kind of electronic installation, it is characterized in that, including:
Display element;And
Treatment element, the display element is electrically connected with, and to perform following steps:
Obtain the signal intensity connected between multiple nodes;And
These connections described in controlling the display element to be shown according to these signal intensity figures.
2. electronic installation according to claim 1, it is characterized in that, the treatment element is also performing following steps:
Control first signal intensity of the display element in these described signal intensities described in the first figure shows this
Correspond to first signal intensity in a little connections first connects, the secondary signal intensity in these described signal intensities with
Second graph shows the second connection that the secondary signal intensity is corresponded in these described connections, wherein first signal intensity
It is different from the secondary signal intensity, and first figure is different from the second graph.
3. electronic installation according to claim 1, it is characterized in that, the treatment element is also performing following steps:
Obtain the frequency range utilization rate of these connections;And
These connections control the display element these frequency range utilization rates according to show colorationly described in.
4. electronic installation according to claim 3, it is characterized in that, the treatment element is also performing following steps:
The display element is controlled to show in these described connections the in these corresponding described frequency range utilization rates with the first color
First connection of one frequency range utilization rate, and shown with the second color in these described connections in these corresponding described frequency range utilization rates
The second frequency range utilization rate the second connection, wherein the first frequency range utilization rate is different from the second frequency range utilization rate, and
First color is different from second color.
5. electronic installation according to claim 1, it is characterized in that, the treatment element is also performing following steps:
The multiple signal intensities for obtaining these nodes described in corresponding respectively to compare value;
The network topological diagram of these nodes according to these described signal intensities compare value acquirement;And
The display element is controlled, to be opened up according to the network of the network topological diagram, these nodes described in graphic software platform
Flutter figure.
6. a kind of operating method, suitable for electronic installation, it is characterized in that, including:
Obtain the signal intensity connected between multiple nodes;And
These are connected described in being shown according to these signal intensity figures.
7. operating method according to claim 6, it is characterized in that, in addition to:
According to the first signal intensity in these described signal intensities, to correspond to institute in these connections described in the first figure shows
The first connection of the first signal intensity, and the secondary signal intensity in these described signal intensities are stated, is shown with second graph
Show the second connection for corresponding to the secondary signal intensity in these described connections, wherein first signal intensity and described the
Binary signal intensity is different, and first figure is different from the second graph.
8. operating method according to claim 6, it is characterized in that, in addition to:
Obtain the frequency range utilization rate of these connections;And
According to these described frequency range utilization rates it is coloration show described in these connection.
9. operating method according to claim 8, it is characterized in that, in addition to:
That the first frequency range utilization rate in these described connections in these corresponding described frequency range utilization rates is shown with the first color
One connection, and the second frequency range utilization rate in these described connections in these corresponding described frequency range utilization rates is shown with the second color
The second connection, wherein the first frequency range utilization rate is different from the second frequency range utilization rate, and first color and institute
State the second color difference.
10. operating method according to claim 6, it is characterized in that, in addition to:
The multiple signal intensities for obtaining these nodes described in corresponding respectively to compare value;
The network topological diagram of these nodes according to these described signal intensities compare value acquirement;And
According to the network topological diagram, the network topological diagram of these nodes described in graphic software platform.
11. a kind of non-transient computer-readable recording medium, it is characterized in that, the non-transient computer-readable recording medium record
Programmed instruction, described program are instructed after electronic installation is loaded, and perform the following steps:
Obtain the signal intensity connected between multiple nodes;And
These are connected described in being shown according to these signal intensity figures.
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US15/653,549 US10411817B2 (en) | 2016-07-22 | 2017-07-19 | Electronic device, operation method of electronic device, and non-transitory computer readable storage medium |
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US201662365566P | 2016-07-22 | 2016-07-22 | |
US62/365,566 | 2016-07-22 |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108923978A (en) * | 2018-07-11 | 2018-11-30 | 江苏中利电子信息科技有限公司 | A kind of self-organizing network nodes signal strength analysis method |
CN110191482A (en) * | 2019-06-17 | 2019-08-30 | 北京猎户星空科技有限公司 | The paths planning method and device of network hotspot drawing generating method, robot |
Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20070168533A1 (en) * | 2003-12-30 | 2007-07-19 | Geoffrey Canright | Method for managing networks by analyzing connectivity |
US20100110932A1 (en) * | 2008-10-31 | 2010-05-06 | Intergence Optimisation Limited | Network optimisation systems |
CN102714881A (en) * | 2010-03-12 | 2012-10-03 | 欧姆龙株式会社 | Wireless communication system, wireless communication method, relay device, transmission source device and control device |
CN103257626A (en) * | 2012-01-31 | 2013-08-21 | 费希尔-罗斯蒙特系统公司 | Apparatus and method for establishing maintenance routes within a process control system |
US20140328211A1 (en) * | 2011-08-18 | 2014-11-06 | Tridonic Gmgh & Co Kg | Analysis and address allocation of wireless building networks |
US20150312833A1 (en) * | 2014-04-23 | 2015-10-29 | Verizon Patent And Licensing Inc. | Automated wireless channel changing |
-
2017
- 2017-06-12 CN CN201710444993.5A patent/CN107645348B/en active Active
- 2017-06-12 TW TW106119512A patent/TW201804309A/en unknown
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20070168533A1 (en) * | 2003-12-30 | 2007-07-19 | Geoffrey Canright | Method for managing networks by analyzing connectivity |
US20100110932A1 (en) * | 2008-10-31 | 2010-05-06 | Intergence Optimisation Limited | Network optimisation systems |
CN102714881A (en) * | 2010-03-12 | 2012-10-03 | 欧姆龙株式会社 | Wireless communication system, wireless communication method, relay device, transmission source device and control device |
US20140328211A1 (en) * | 2011-08-18 | 2014-11-06 | Tridonic Gmgh & Co Kg | Analysis and address allocation of wireless building networks |
CN103257626A (en) * | 2012-01-31 | 2013-08-21 | 费希尔-罗斯蒙特系统公司 | Apparatus and method for establishing maintenance routes within a process control system |
US20150312833A1 (en) * | 2014-04-23 | 2015-10-29 | Verizon Patent And Licensing Inc. | Automated wireless channel changing |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108923978A (en) * | 2018-07-11 | 2018-11-30 | 江苏中利电子信息科技有限公司 | A kind of self-organizing network nodes signal strength analysis method |
CN110191482A (en) * | 2019-06-17 | 2019-08-30 | 北京猎户星空科技有限公司 | The paths planning method and device of network hotspot drawing generating method, robot |
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