CN106332105A - Automatic-networking network - Google Patents

Abstract

The invention provides an automatic-networking network. Two kinds of nodes, a central node and common nodes, are included in the network. Each node contains two logical function entities. Each function entity has two attributes: a Master entity/Slave entity. The Master attribute externally provides Slave entity access service, and the Slave entity is accessed to the Master entity to complete an air interface link building process. Each function entity is corresponding to one independent radio frequency channel. As for initial power on of the central node and the common nodes, available frequency point sets are configured for the radio frequency channel of each function entity. The Master entity in the access relationship is called to be a superior node of the corresponding Slave entity, and the corresponding Slave entity is called to be a subordinate node of the Master entity. Thus, the logical topology of the network can be automatically sorted into a chain or tree type, and the network planning complexity is reduced.

Description

The network of automatic network-building

Technical field

The invention belongs to cordless communication network technical field, relate to the network of a kind of automatic network-building.

Background technology

In MANET field, node device generally uses single channel design, applies multi-hop relay, can be because receiving and dispatching Frequency conflicts, causes declining along with the increase flow system flow of jumping figure；Multi-path-apparatus owing to possessing multiple independent radio-frequency channel, Passages different during multi-hop relay may be simultaneously operated in different frequencies so that bandwidth is ensured.

Multi-path-apparatus, owing to can use different frequencies simultaneously, causes the workload of frequency planning to greatly increase.

Summary of the invention

It is an object of the invention to overcome the deficiencies in the prior art, it is provided that the network of a kind of automatic network-building, can answer For the MANET of dual channel devices, enormously simplify the complexity of frequency planning.Present invention is particularly suitable for chain or tree-shaped Topologic network.The technical solution used in the present invention is:

A kind of network of automatic network-building, it is characterised in that

Network includes two category nodes: Centroid, ordinary node；Each node comprises two logical functional entities； Each functional entity has two attributes: Master entity/Slave entity；Wherein Master entity externally provides Slave entity Access service, Slave entity accesses Master entity to complete link establishment process of eating dishes without rice or wine；Each functional entity correspondence one is solely Vertical radio-frequency channel；

Centroid and ordinary node initial power-on all can configure available frequency point set to the radio-frequency channel of each functional entity；

The Slave entity same moment only has access a Master entity, and a Master entity synchronization energy Enough for the offer access service of one or more Slave entities；

There is the superior node of the most corresponding Slave entity of Master entity of access relation, and corresponding Slave is real Body is referred to as the downstream site of Master entity.

Further, after Centroid powers on, two functional entitys of Centroid are both configured to Master entity attribute； Then two functional entitys of Centroid carry out independent frequency sweep operation to respective radio-frequency channel respectively, tie according to frequency sweep Really, concentrate from two available frequency points respectively select that noise is minimum, the frequency of minimum interference is as respective working frequency points；In The working frequency points of two Master entity selection of heart node is misaligned；

Then two Master entities of Centroid start the cycle respectively and are sent out broadcast message, notify other Slave solid centre node can provide access service, and two Master entities of Centroid start waiting for other afterwards The access of Slave entity；

After ordinary node powers on, two functional entitys of ordinary node are both configured to Slave entity attribute；The most commonly save Two Slave entities of point carry out independent frequency sweep operation respectively to respective radio-frequency channel, and select one according to frequency sweep result Individual signal Master entity that is optimal and that allow other node to access accesses；If ordinary node Slave entity Be successfully accessed, then another Slave entity then be set to Master entity, this attribute conversion Master entity work frequency Point selects according to frequency sweep result, and different from the Slave entity acts frequency on same ordinary node；This attribute is changed Master entity externally send broadcast message, notify that the Master entity that other this attribute of Slave entity is changed can provide Access service；

If it is unsuccessful that ordinary node attempts accessing Master entity, then the Master entity of next candidate is selected to connect Enter to attempt.

Further, after ordinary node powers on, specifically carry out:

1) frequency sweep process；Two functional entitys are both configured to Slave attribute after powering on by ordinary node, then start to sweep Frequently, frequency sweep process has a two ways:

A) ordinary node starts a frequency sweep intervalometer, and two Slave entities carry out frequency sweep respectively, until frequency sweep intervalometer Time-out；Slave node sinks respective frequency sweep result selects function for working frequency points；

B) one frequency sweep intervalometer of startup that two Salve entities are the most independent, the most independent to carry out frequency sweep straight To respective frequency sweep timer expiry, the most independent follow-up working frequency points that carries out selects function；As long as a Slave is real Access the success of Master entity after body frequency-selecting, notify that another Slave entity is converted into Master entity the most immediately；

2) Master entity selection；

If frequency sweep result does not monitors effective nodal information, then select the failure of Master entity；Otherwise according to signal to noise ratio From big to small or received signal power from big to small to allow access node be ranked up, select received signal power cross thresholding And the node of signal to noise ratio maximum is as self selected Master initiation access procedure；

If Slave entity is successfully accessed, then notice another functional entity of node transfers Master entity to；Otherwise, choosing Selecting next candidate's Master entity to access, candidate's Master entity arranges from big to small according to signal to noise ratio, and receives letter Number power crosses thresholding；If selected Master entity all cannot be successfully accessed, then re-start frequency sweep process；

Owing to frequency sweep process has two ways, correspondingly, Master entity selection can also be two Slave entities each Independently carry out or select candidate's Master entity according to the frequency sweep result unification of Slave entity；

3) attribute conversion；

After one Slave entity of ordinary node is successfully accessed, need to notify that another functional entity carries out attribute conversion, Another functional entity first converting attribute is Master entity, then selects currently common node from the frequency sweep result of self Non-Slave entity is currently in use, and it is minimum to need to select received signal power in without the residue frequency of effective superior node Frequency as self working frequency points, then the cycle of starting is sent out broadcast and notifies that other this attribute of Slave entity is changed Matser entity access service can be provided, Master entity starts waiting for the access of other Slave entity afterwards.

Further, during the conversion of another functional entity attribute of ordinary node, if Master entity setting up certain After working frequency points, time-out accesses without other Slave entity, and this Master selects other suboptimum frequency to repeat from frequency sweep result Aforesaid operations.

Further, the Master entity of Centroid selects the frequency that received signal power is minimum from frequency sweep result Minimum, the frequency of minimum interference, i.e. working frequency points as noise.

Further, if the two of Centroid Master entity respective available frequency points concentrate each only one of which frequency Point, then be made without selecting, directly use this frequency as the working frequency points of this Master entity.

Further, after a Master entity of Centroid have selected a working frequency points, if time-out is without other Slave entity accesses, then this Master entity selects other suboptimum frequency from frequency sweep result, is then sent out broadcast letter Breath, notifies that this Master entity of other Slave entity can provide access service.

Further, each functional entity on a node configures the most independent available frequency point set or shares unification Available frequency point set.

It is an advantage of the current invention that: utilize the present invention logical topology automatic arranging of network can be become chain or tree-shaped, Reduce the complexity of the network planning.

Accompanying drawing explanation

Fig. 1 is schematic diagram before each node networking after the Centroid of the present invention powers on.

Fig. 2 is embodiments of the invention interior joint scattergrams.

Fig. 3 is schematic diagram after embodiments of the invention node attribute is specified.

Fig. 4 is networking rear center node chain topology schematic diagram in embodiments of the invention.

Fig. 5 is networking rear center node tree topology schematic diagram in embodiments of the invention.

Fig. 6 is ordinary node chain topology schematic diagram after networking in embodiments of the invention.

Fig. 7 is ordinary node tree topology schematic diagram after networking in embodiments of the invention.

Detailed description of the invention

Below in conjunction with concrete drawings and Examples, the invention will be further described.

As it is shown in figure 1, network exists two category nodes: a) Centroid；B) ordinary node.This two category node is all bilateral Road equipment.Wherein Centroid can be by configuring or certain rule selection generation；Non-central node is exactly ordinary node.

Each node (including Centroid and ordinary node) comprises two logical functional entities；Each functional entity has Two attributes: Master entity/Slave entity；Wherein Master entity externally provides the access service of Slave entity, Slave Entity accesses Master entity to complete link establishment process of eating dishes without rice or wine；The corresponding independent radio-frequency channel of each functional entity；

Master entity/Slave entity is alternatively referred to as principal, from entity；

Centroid and ordinary node initial power-on all can configure available frequency point set to the radio-frequency channel of each functional entity；

The Slave entity same moment only has access a Master entity, and a Master entity synchronization energy Enough for the offer access service of one or more Slave entities；

There is the superior node of the most corresponding Slave entity of Master entity of access relation, and corresponding Slave is real Body is referred to as the downstream site of Master entity.

Each functional entity on one node can configure the most independent available frequency point set and can also share unified Available frequency point set.

(1) center frequency point；

After Centroid powers on, two functional entitys of Centroid are both configured to Master entity attribute；Then center Two functional entitys of node carry out independent frequency sweep operation to respective radio-frequency channel respectively, according to frequency sweep result (frequency sweep result Include but not limited to following content: frequency sweep gap marker, operating frequency, received signal power, received signal strength, signal to noise ratio), Concentrate from two available frequency points respectively and select that noise is minimum, the frequency of minimum interference is as respective working frequency points；Frequency sweep Result is the list of a frequency information；The working frequency points of two Master entity selection of Centroid is misaligned；

If the two of Centroid Master entity respective available frequency points concentrate each only one of which frequency, then need not Select, directly use this frequency as the working frequency points of this Master entity；

Then two Master entities of Centroid start the cycle respectively and are sent out broadcast message, notify other Slave solid centre node can provide access service, and two Master entities of Centroid start waiting for other afterwards The access of Slave entity；If after Centroid Master entity have selected a working frequency points, time-out (can set one Individual duration threshold decision time-out) access without other Slave entity, then this Master entity selects other suboptimum from frequency sweep result Frequency, is then sent out broadcast message, notifies that this Master entity of other Slave entity can provide access service.

Master entity using frequency minimum for received signal power as noise minimum, the frequency of minimum interference, i.e. first The working frequency points of choosing；If time-out accesses without other Slave entity, then may select the frequency of received signal power suboptimum (the most secondary little) Point is as other suboptimum frequency.Repeat aforesaid operations: be sent out broadcast message, notify that this Master of other Slave entity is real Body can provide access service.

The received signal power of one frequency is little, generally means that this frequency noise is little, and do not have other carrier wave or Spurious signal is disturbed.

(2) ordinary node；

After ordinary node powers on, two functional entitys of ordinary node are both configured to Slave entity attribute；The most commonly save Two Slave entities of point carry out independent frequency sweep operation respectively to respective radio-frequency channel, and select one according to frequency sweep result Individual signal Master entity that is optimal and that allow other node to access accesses；If ordinary node Slave entity Be successfully accessed, then another Slave entity then be set to Master entity, this attribute conversion Master entity work frequency Point selects according to frequency sweep result, and different from the Slave entity acts frequency on same ordinary node；This attribute is changed Master entity externally send broadcast message, notify that other Slave entity can provide access service.

If it is unsuccessful that ordinary node attempts accessing Master entity, then the Master entity of next candidate is selected to connect Enter to attempt.Can be successfully accessed without Master entity, then re-start above-mentioned frequency sweep process.

It is further explained below:

1) frequency sweep process；

Two functional entitys are both configured to Slave attribute after powering on by ordinary node, then start frequency sweep, and frequency sweep process has Two ways:

A) ordinary node starts a frequency sweep intervalometer, and two Slave entities carry out frequency sweep respectively, until frequency sweep intervalometer Time-out；Slave node sinks respective frequency sweep result selects function for working frequency points；

It is to say, the frequency sweep result of two Salve nodes compares simultaneously, select a signal optimal and allow other to save The Master entity that point accesses accesses；

B) one frequency sweep intervalometer of startup that two Salve entities are the most independent, the most independent to carry out frequency sweep straight To respective frequency sweep timer expiry, the most independent follow-up working frequency points that carries out selects function；As long as a Slave is real Access the success of Master entity after body frequency-selecting, notify that another Slave entity is converted into Master entity the most immediately；

Frequency sweep result includes but not limited to following content: frequency sweep gap marker, operating frequency, received signal power, receives Signal intensity, signal to noise ratio, the information of the node monitored (includes but not limited to: node identification, if allow to access instruction, connect Enter time-frequency resource location)；Frequency sweep result is the list of a frequency information.

2) Master entity selection；

If frequency sweep result does not monitors effective nodal information, then select the failure of Master entity；Otherwise according to signal to noise ratio From big to small or received signal power from big to small to allow access node be ranked up, select received signal power cross thresholding And the node of signal to noise ratio maximum is as self selected Master initiation access procedure；

If Slave entity is successfully accessed, then notice another functional entity of node transfers Master entity to；Otherwise, choosing Selecting next candidate's Master entity to access, candidate's Master entity arranges from big to small according to signal to noise ratio, and receives letter Number power crosses thresholding.If selected Master entity all cannot be successfully accessed, then re-start frequency sweep process.

Owing to frequency sweep process has two ways, therefore Master entity selection can also be that two Slave entities are the most only Stand and carry out or select candidate's Master entity according to the frequency sweep result unification of Slave entity.

3) attribute conversion；

After one Slave entity of ordinary node is successfully accessed, need to notify that another functional entity carries out attribute conversion, Another functional entity first converting attribute is Master entity, then (does not consider another Slave from the frequency sweep result of self The frequency sweep result of entity) middle selection currently common node non-Slave entity is currently in use, and needs are without effective superior node Residue frequency in select the received signal power minimum frequency working frequency points as self, then the cycle of starting is sent out Broadcast notifies that the Matser entity that other this attribute of Slave entity is changed can provide access service, and Master entity is opened afterwards Begin to wait the access of other Slave entity (node)；

If time-out accesses without other Slave entity after certain working frequency points of Master entity setting up, this Master can To select other suboptimum frequency (received signal power suboptimum, i.e. received signal power this little) from frequency sweep result, repeat above-mentioned Operation；

The following is specific example to illustrate:

As shown in Figure 2, it is assumed that (can be according to geographical center, from control station by node centered by configuring appointment node 2 Other Considerations are closely waited to specify), then other node is ordinary node.After designated centers node, the functional entity of each node is initial Attribute is as shown in Figure 3:

Assuming that configure identical frequency collection to each node logical functional entity, this frequency collection includes 20 effective frequencies, uses F1, f2 ..., f20 represents.

Action after the most each node powers on is as follows:

Two Master of Centroid start frequency sweep intervalometer, and carry out frequency sweep respectively, obtain after frequency sweep timing time-out Frequency sweep result as shown in table 1 below:

Table 1

Centroid is without effective superior node, so the point selecting noise minimum in frequency sweep result (i.e. receives signal merit Rate is minimum) as working frequency points, so Master entity selection f1 of Centroid upper channel 1 correspondence is as working frequency points, logical The Master entity of road 2 correspondence is taken by passage 1 due to f1, therefore selects the f2 of suboptimum as working frequency points.Afterwards two Individual Master entity sends broadcast message in respective working frequency points, waits that other Slave entity accesses；

Each ordinary node powers on, and starts respective frequency sweep intervalometer and carries out frequency sweep, is now described as a example by node 1: joint After point 1 powers on, starting frequency sweep intervalometer, two Slave entities carry out frequency sweep to 20 frequencies of frequency concentration respectively.Assume It is as shown in table 2 below that frequency sweep timing obtains frequency sweep result after terminating:

Table 2

I.e. node 1 may power on before node 2, and now without effective superior node, then node 1 restarts frequency sweep timing Device also re-starts frequency sweep process.If the node 1 startup frequency sweep intervalometer that to be each Slave entity the most independent, then What two Slave entities were the most independent carries out frequency sweep process, until a Slave entity at least finds one effectively and to allow to connect The superior node entered.

Assume that certain puts down the frequency sweep result of posterior nodal point 1 as shown in table 3 below:

Table 3

Frequency sweep result shows, is all found that effective superior node 2 in two frequency sweep results, through comparing discovery radio-frequency channel The received signal power of f1 frequency, the signal to noise ratio of 1 are the biggest.The Slave entity of radio-frequency channel 1 correspondence at f1 frequency to node 2 Send access request.If after being successfully accessed, then notify that the functional entity Slave of passage 2 correspondence of node 1 carries out attribute and turns Changing, (if accessed unsuccessful (after attempting repeatedly), the Slave entity of selector channel 2 uses f2 to carry out to be converted into Master entity Access, if the most unsuccessful, the Slave entity of selector channel 2 the most successively, use f1 to access, the Slave of passage 1 is real Body, use f2 access, if the attempt to complete one take turns after the most unsuccessful, then re-start frequency sweep)；This Master entity correspondence is penetrated Frequently passage 2, it needs to select the minimum (reception of noise in without the residue frequency (this example middle finger f3～f20) of effective superior node Signal power is minimum) frequency f20 as working frequency points, afterwards, Master entity sends broadcast message (Master by f20 The number of antennas of entity, the transmission mode of support, the time-frequency location of access request, the information such as cycle) and wait that other Slave connects Enter.

If two passages have the most independent frequency sweep intervalometer, two Slave entities of the most above-mentioned frequency sweep process are the most only Stand and carry out, but the foundation of selection superior node is the most identical.As long as after a Slave entity is successfully accessed, need to notify immediately separately One Slave entity stops frequency sweep, and is converted into Master entity.

When node 2, node 3 power on, the action of automatic network-building is similar with node 1.

Select the difference of Master entity according to ordinary node, network topology may be following several situation:

As shown in Figure 4, networking rear center node chain topology；F in Fig. 4₂₀It is not equal to f₁, f₁It is not equal to f₂, f₂It is not equal to f₃, f₃It is not equal to f₄。

As it is shown in figure 5, networking rear center node tree topology；F in Fig. 4₂₀It is not equal to f₁, f₁It is not equal to f₂, f₂It is not equal to f₃、f₄。

The network topology of Fig. 4, Fig. 5 is also applied for ordinary node, i.e. the Master entity of ordinary node can have a node Access, it is possible to have multiple node to access.As shown in Figure 6, Figure 7.

As shown in Figure 6, ordinary node chain topology after networking；F in Fig. 6₁It is not equal to f₂, f₂It is not equal to f₃。

As it is shown in fig. 7, ordinary node tree topology after networking；F in Fig. 7₁It is not equal to f₂, f₁It is not equal to f₃。

Claims (8)

1. the network of an automatic network-building, it is characterised in that

Network includes two category nodes: Centroid, ordinary node；Each node comprises two logical functional entities；Each Functional entity has two attributes: Master entity/Slave entity；Wherein Master entity externally provides the access of Slave entity Service, Slave entity accesses Master entity to complete link establishment process of eating dishes without rice or wine；Each functional entity corresponding one independent Radio-frequency channel；

Centroid and ordinary node initial power-on all can configure available frequency point set to the radio-frequency channel of each functional entity；

The Slave entity same moment only has access a Master entity, and a Master entity synchronization can be One or more Slave entities provide access service；

There is the superior node of the most corresponding Slave entity of Master entity of access relation, and corresponding Slave entity claims Downstream site for Master entity.

2. the network of automatic network-building as claimed in claim 1, it is characterised in that

After Centroid powers on, two functional entitys of Centroid are both configured to Master entity attribute；Then Centroid Two functional entitys respectively respective radio-frequency channel is carried out independent frequency sweep operation, according to frequency sweep result, respectively from two Available frequency point is concentrated and is selected that noise is minimum, the frequency of minimum interference is as respective working frequency points；Two of Centroid The working frequency points of Master entity selection is misaligned；

Then two Master entities of Centroid start the cycle respectively and are sent out broadcast message, notify that other Slave is real Body Centroid can provide access service, and two Master entities of Centroid start waiting for other Slave entity afterwards Access；

After ordinary node powers on, two functional entitys of ordinary node are both configured to Slave entity attribute；Then ordinary node Two Slave entities carry out independent frequency sweep operation respectively to respective radio-frequency channel, and select a letter according to frequency sweep result Number Master entity that is optimal and that allow other node to access accesses；If ordinary node Slave entity accesses Success, then another Slave entity then be set to Master entity, the working frequency points root of Master entity of this attribute conversion Select according to frequency sweep result, and different from the Slave entity acts frequency on same ordinary node；The conversion of this attribute Master entity externally sends broadcast message, notifies that the Master entity that other this attribute of Slave entity is changed can provide and connects Enter service；

If it is unsuccessful that ordinary node attempts accessing Master entity, then select the Master entity of next candidate to carry out access and taste Examination.

3. the network of automatic network-building as claimed in claim 2, it is characterised in that

After ordinary node powers on, specifically carry out:

1) frequency sweep process；Two functional entitys are both configured to Slave attribute after powering on by ordinary node, then start frequency sweep, sweep Frequently process has a two ways:

A) ordinary node starts a frequency sweep intervalometer, and two Slave entities carry out frequency sweep respectively, until frequency sweep intervalometer surpasses Time；Slave node sinks respective frequency sweep result selects function for working frequency points；

B) one frequency sweep intervalometer of startup that two Salve entities are the most independent, the most independent carries out frequency sweep until each From frequency sweep timer expiry, the most independent follow-up working frequency points that carries out selects function；If a Slave entity choosing Access the success of Master entity after Pin, notify that another Slave entity is converted into Master entity the most immediately；

2) Master entity selection；

If frequency sweep result does not monitors effective nodal information, then select the failure of Master entity；Otherwise according to signal to noise ratio from greatly From big to small the node allowing access is ranked up to little or received signal power, selects received signal power to cross thresholding and letter Make an uproar and initiate access procedure than maximum node as self selected Master；

If Slave entity is successfully accessed, then notice another functional entity of node transfers Master entity to；Otherwise, under selection One candidate's Master entity accesses, and candidate's Master entity arranges from big to small according to signal to noise ratio, and receives signal merit Rate crosses thresholding；If selected Master entity all cannot be successfully accessed, then re-start frequency sweep process；

Owing to frequency sweep process has two ways, correspondingly, Master entity selection can also be that two Slave entities are each independent Carry out or select candidate's Master entity according to the frequency sweep result unification of Slave entity；

3) attribute conversion；

After one Slave entity of ordinary node is successfully accessed, need to notify that another functional entity carries out attribute conversion, another Individual functional entity first converting attribute is Master entity, then selects currently common node non-from the frequency sweep result of self Slave entity is currently in use, and needs to select received signal power minimum in without the residue frequency of effective superior node Frequency is as the working frequency points of self, and then the cycle of starting is sent out broadcasting and notifies what other this attribute of Slave entity was changed Matser entity can provide access service, and Master entity starts waiting for the access of other Slave entity afterwards.

4. the network of automatic network-building as claimed in claim 3, it is characterised in that

During another functional entity attribute conversion of ordinary node, if time-out after certain working frequency points of Master entity setting up Accessing without other Slave entity, this Master selects other suboptimum frequency to repeat aforesaid operations from frequency sweep result.

5. the network of automatic network-building as claimed in claim 2, it is characterised in that

The Master entity of Centroid selects the frequency of received signal power minimum as noise minimum from frequency sweep result, is subject to The frequency that interference is minimum, i.e. working frequency points.

6. the network of automatic network-building as claimed in claim 2, it is characterised in that

If the two of Centroid Master entity respective available frequency points concentrate each only one of which frequency, then it is made without Select, directly use this frequency as the working frequency points of this Master entity.

7. the network of automatic network-building as claimed in claim 2, it is characterised in that

After one Master entity of Centroid have selected a working frequency points, if time-out accesses without other Slave entity, then This Master entity selects other suboptimum frequency from frequency sweep result, is then sent out broadcast message, notifies that other Slave is real This Master entity of body can provide access service.

8. the network of automatic network-building as claimed in claim 1, it is characterised in that

Each functional entity on one node configures the most independent available frequency point set or shares unified available frequency point set.