CN105636182B - A kind of information processing method and corresponding intrument - Google Patents
A kind of information processing method and corresponding intrument Download PDFInfo
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- CN105636182B CN105636182B CN201511021304.7A CN201511021304A CN105636182B CN 105636182 B CN105636182 B CN 105636182B CN 201511021304 A CN201511021304 A CN 201511021304A CN 105636182 B CN105636182 B CN 105636182B
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/02—Power saving arrangements
- H04W52/0209—Power saving arrangements in terminal devices
- H04W52/0251—Power saving arrangements in terminal devices using monitoring of local events, e.g. events related to user activity
- H04W52/0254—Power saving arrangements in terminal devices using monitoring of local events, e.g. events related to user activity detecting a user operation or a tactile contact or a motion of the device
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02D—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
- Y02D30/00—Reducing energy consumption in communication networks
- Y02D30/70—Reducing energy consumption in communication networks in wireless communication networks
Abstract
A kind of information processing method and corresponding intrument, electronic equipment electric energy loss is larger when for solving the problems, such as communication between devices in the prior art.The information processing method is applied to the first routing node, it include: after N number of test signal in the power test sequence for receiving terminal transmission, test response results are generated according to N number of test signal, the cycle tests includes the different test signal of M transmission power, the M is the integer more than or equal to 2, and N is the positive integer no more than M;Test response results are sent to the terminal, so that the terminal, which is tested according to the test result from described M, determines the operating power for sending signal to first routing node in signal.
Description
Technical field
The present invention relates to field of communication technology, in particular to a kind of information processing method and corresponding intrument.
Background technique
With the continuous development of technology, electronic equipment is more and more intelligent, and the communication behavior of equipment room increases, and greatly changes
It has been apt to the mode that user uses electronic equipment, has brought many conveniences.
But communication between devices behavior increases the electric energy loss that equipment will be significantly greatly increased, and it is logical how to reduce equipment room
The electric energy loss of letter becomes urgent problem to be solved.
Summary of the invention
The embodiment of the present invention provides a kind of information processing method and corresponding intrument, logical for solving equipment room in the prior art
Electronic equipment electric energy loss larger problem when letter.
In a first aspect, the embodiment of the present invention provides a kind of information processing method, it is applied to the first routing node, comprising:
It is raw according to N number of test signal after N number of test signal in the power test sequence for receiving terminal transmission
At test response results, the cycle tests includes the different test signal of M transmission power, and the M is whole more than or equal to 2
Number, N are the positive integer no more than M;
Test response results are sent to the terminal, so that the terminal is surveyed according to the test result from described M
The operating power that signal is sent to first routing node is determined in trial signal.
Optionally, the method also includes:
After having the K routing node newly to network in monitoring network, determine that the K routing node is the relative of itself
Node, the K are the integer more than or equal to 1;
It is sent to the terminal and reconnects route instruction, so that the terminal exists according to the reconnect route instruction
Father node is determined in first routing node and the K routing node.
Optionally, the test response results include the response message of N number of test signal;
Test response results are sent to the terminal, so that the terminal is according to the test result from N number of survey
The operating power that signal is sent to first routing node is determined in trial signal, comprising:
Test response results are sent to the terminal, so that the N that the terminal includes according to the test response results
A response message determines that N number of test signal is validity test signal, and determines the minimum transmitting in N number of test signal
Power is the operating power.
Optionally, the number that signal is tested in the power test sequence is arranged according to transmission power size ascending order or descending
Arrangement;
Test response results are generated according to N number of test signal, comprising:
When the number for testing signal is arranged according to transmission power size ascending order, determine in N number of test signal most
Small number, the test response results include the lowest number;Or
When the number for testing signal is arranged according to transmission power size descending, determine in N number of test signal most
Big number, the test response results include the maximum number.
Second aspect, the embodiment of the present invention provide a kind of information processing method, are applied to terminal, comprising:
Power test sequence is sent to the first routing node, the power test sequence includes that M transmission power is different
Signal is tested, the M is the integer more than or equal to 2;
Receive the test response results that first routing node returns, the test accordingly result by the first via by
N number of test signal is generated node in the power test sequence based on the received, and N is the positive integer no more than M;
It is tested according to the test result from described M and determines the work for sending signal to first routing node in signal
The rate of doing work.
Optionally, the method also includes:
The reconnect route instruction that first routing node is sent is received, the reconnect route instruction is described
To be generated after itself relative's node, the K is the K routing node that first routing node newly networks in determining network
Integer more than or equal to 1;
The reconnect route instruction is responded, is determined in first routing node and the K routing node
Father node.
Optionally, the test response results include the response message of N number of test signal;
It is tested according to the test result from described M and determines the work for sending signal to first routing node in signal
The rate of doing work, comprising:
Determine N number of test signal for validity test letter according to N number of response message that the test response results include
Number;
Determine that the minimum emissive power in N number of test signal is the operating power.
Optionally, the number that signal is tested in the power test sequence is arranged according to transmission power size ascending order, described
Test response results include the lowest number in N number of test signal;It is described to be tested according to the test result from described M
The operating power that signal is sent to first routing node is determined in signal, comprising:
The transmission power for determining the corresponding test signal of the lowest number is the operating power;Or
The number that signal is tested in the power test sequence is arranged according to transmission power size descending, the test response
It as a result include the maximum number in N number of test signal, it is described true from the M test signal according to the test result
Orient the operating power that first routing node sends signal, comprising:
The transmission power for determining the corresponding test signal of the maximum number is the operating power.
The third aspect, the embodiment of the present invention provide a kind of routing device, comprising:
Transceiver, for being communicated with terminal;
Memory, for storing instruction;
Processor is connected with the transceiver and the storage unit respectively, for executing the memory storage
Instruction, to execute following steps when executing described instruction:
After N number of test signal in the power test sequence sent by the transceiver to the terminal, according to
Test response results are generated according to N number of test signal, the cycle tests includes the different test signal of M transmission power,
The M is the integer more than or equal to 2, and N is the positive integer no more than M;
Test response results are sent to the terminal by the transceiver, so that the terminal is tied according to the test
Fruit tests the operating power for determining in signal and sending signal to first routing node from described M.
Optionally, the processor is also used to:
After having the K routing node newly to network in monitoring network, determine that the K routing node is the relative of itself
Node, the K are the integer more than or equal to 1;
By the transceiver to the terminal send reconnect route instruction so that the terminal according to described in again
It connects route instruction and determines father node in first routing node and the K routing node.
Optionally, the test response results include the response message of N number of test signal;The processor is used for:
Test response results are sent to the terminal by the transceiver, so that the terminal is according to the test result from described
The operating power that signal is sent to first routing node is determined in N number of test signal, comprising:
Test response results are sent to the terminal by the transceiver, so that the terminal is rung according to the test
Should result N number of response message for including determine that N number of test signal is validity test signal, and determine that N number of test is believed
Minimum emissive power in number is the operating power.
Optionally, the number that signal is tested in the power test sequence is arranged according to transmission power size ascending order or descending
Arrangement;
The processor is used for: generating test response results according to N number of test signal, comprising:
When the number for testing signal is arranged according to transmission power size ascending order, determine in N number of test signal most
Small number, the test response results include the lowest number;Or
When the number for testing signal is arranged according to transmission power size descending, determine in N number of test signal most
Big number, the test response results include the maximum number.
Fourth aspect, the embodiment of the present invention provide a kind of terminal, comprising:
Transceiver, for being communicated with the first routing node;
Memory, for storing instruction;
Processor is connected with the transceiver and the storage unit respectively, for executing the memory storage
Instruction, to execute following steps when executing described instruction:
Power test sequence is sent to the first routing node by the transceiver, the power test sequence includes M
The different test signal of transmission power, the M are the integer more than or equal to 2;
The test response results returned by the first routing node described in the transceiver, the test accordingly result
It is generated by N number of test signal in first routing node based on the received the power test sequence, N is no more than M's
Positive integer;
It is tested according to the test result from described M and determines the work for sending signal to first routing node in signal
The rate of doing work.
Optionally, the processor is also used to:
The reconnect route instruction sent by the first routing node described in the transceiver, the reconnect
Route instruction is after the K routing node that first routing node newly networks in determining network is itself relative's node
It is generated, the K is the integer more than or equal to 1;
The reconnect route instruction is responded, is determined in first routing node and the K routing node
Father node.
Optionally, the test response results include the response message of N number of test signal;The processor is used for:
It is tested according to the test result from described M and determines the operating power for sending signal to first routing node in signal,
Include:
Determine N number of test signal for validity test letter according to N number of response message that the test response results include
Number;
Determine that the minimum emissive power in N number of test signal is the operating power.
Optionally, the number that signal is tested in the power test sequence is arranged according to transmission power size ascending order, described
Test response results include the lowest number in N number of test signal;The processor is used for: according to the test result from
The operating power that signal is sent to first routing node is determined in the M test signal, comprising:
The transmission power for determining the corresponding test signal of the lowest number is the operating power;Or
The number that signal is tested in the power test sequence is arranged according to transmission power size descending, the test response
It as a result include the maximum number in N number of test signal, the processor is used for: according to the test result from the M
Test the operating power for determining in signal and sending signal to first routing node, comprising:
The transmission power for determining the corresponding test signal of the maximum number is the operating power.
The one or more technical solutions provided in the embodiment of the present invention, have at least the following technical effects or advantages:
Terminal sends test signal to father node by M different transmission power, and sent according to different transmission power
The response results of signal are tested, determine the operating power to father node transmitting signal.With tube terminal and father do not save in the prior art
What kind of communication environment point is in, and is compared always with biggish rated power to the technical solution that father node sends signal, this hair
The technical solution that bright embodiment provides can reduce terminal on the basis of can guarantee the normal communication between terminal and father node
Transmission power reduces the power consumption of terminal, extends the cruise duration of terminal.Moreover, with the reduction of transmission power, signal it
Between interference also accordingly reduce, and then improve the communication quality of entire communication system.
Detailed description of the invention
To describe the technical solutions in the embodiments of the present invention more clearly, make required in being described below to embodiment
Attached drawing is briefly introduced, it should be apparent that, drawings in the following description are only some embodiments of the invention, for this
For the those of ordinary skill in field, without any creative labor, it can also be obtained according to these attached drawings
His attached drawing.
Fig. 1 is the schematic diagram of information processing system in the embodiment of the present invention;
Fig. 2 is the flow diagram of information processing method in the embodiment of the present invention;
Fig. 3 is the schematic diagram of another process of information processing method in the embodiment of the present invention;
Fig. 4 is the structural schematic block diagram of routing device in the embodiment of the present invention;
Fig. 5 is the structural schematic block diagram of terminal in the embodiment of the present invention.
Specific embodiment
Fig. 1 is the schematic diagram of information processing system in the embodiment of the present invention, includes routing node and terminal in the system
Node.Wherein, routing node has the function of data forwarding, and terminal node does not have the function of data forwarding, can only pass through
Routing node forwards data, is communicated by routing node with other nodes in system.It is terminal in the embodiment of the present invention
The routing node of node for data forwarding is also known as the father node of the terminal node, corresponding, which is known as routing node
Child node.For ease of description, in the following contents of the embodiment of the present invention, terminal node is referred to as terminal.
In actual conditions, some terminals and father node distance farther out, need biggish transmission power to send to father node and believe
Number, and some terminals are closer apart from father node, it is only necessary to lesser transmission power, which can succeed, sends signal to father node.It is existing
In technology, in order to guarantee that father node can be successfully received the signal of terminal transmission, terminal is (usual with larger specified transmission power
For the maximum transmission power of terminal) to father node send signal, still, this makes the power consumption of terminal larger, be unfavorable for energy conservation with
And the long-time of terminal uses.
In order to solve this problem, the embodiment of the present invention provides a kind of information processing method, and referring to fig. 2, this method includes such as
Lower step:
Step 101: terminal sends power test sequence to the first routing node, and power test sequence includes M transmitting function
The different test signal of rate, M are the integer more than or equal to 2;
Step 102: the first routing node receive terminal transmission power test sequence in N number of test signal after,
Test response results are generated according to N number of test signal, N is the positive integer no more than M;
Step 103: the first routing node sends test response results to terminal;
Step 104: terminal receives the test response results that the first routing node returns;
Step 105: terminal tests from M according to test result and determines the work for sending signal to the first routing node in signal
The rate of doing work.
Specifically, the first routing node is the node for forwarding data for terminal, the as father node of terminal.
Firstly, terminal sends power test sequence to the first routing node, as terminal is respectively with M different transmitting function
Rate emits M different test signals to the first routing node.
Then, the first routing node receives N number of test signal in power test sequence, remaining M-N is tested
For signal, since its transmission power is too low, lead to not be normally received by the first routing node.
Then, N number of test signal generates test response results to the first routing node based on the received, wherein test response
As a result it is able to reflect N number of test signal that the first routing node is successfully received in power test sequence.
Then, the first routing node will test response results and be sent to terminal, and terminal can be obtained according to test response results
Know in power testing signal N number of test signal success by the first routing node receive and remaining M-N test signal not
It can be properly received by the first routing node.In other words, terminal can know the test signal energy emitted by which transmission power
It is enough to be properly received by the first routing node, and the test signal that is emitted by which transmission power can not by the first via by
Node is properly received.In turn, the respective reception condition of test signal that terminal can be sent according to M transmission power, determines
Specifically sending signal to the first routing node with great performance number is more suitable for determining to send signal to the first routing node
Operating power.
In above-mentioned technical proposal, terminal sends test signal to father node by M different transmission power, and according to difference
Transmission power send test signal response results, determine to father node transmitting signal operating power, the operating power with
Current communication environment (such as distance, interference) is adaptable between terminal and father node.With not tube terminal in the prior art
It is in what kind of communication environment with father node, sends the technical solution phase of signal to father node with biggish rated power always
Than technical solution provided in an embodiment of the present invention can subtract on the basis of can guarantee the normal communication between terminal and father node
The transmission power of small terminal reduces the power consumption of terminal, extends the cruise duration of terminal.Moreover, subtracting with transmission power
Small, the interference between signal also accordingly reduces, and then improves the communication quality of entire communication system.
In the embodiment of the present invention, the first routing node generates test response results according to N number of test signal, including but unlimited
In following implementation:
Mode 1, the first routing node generate the response message of each test signal in N number of test signal, test response knot
Fruit includes the response message of above-mentioned N number of test signal.
Corresponding, step 105: terminal is determined to the first routing node from M test signal according to test result and is sent
The operating power of signal has following implementation:
Determine that N number of test signal is validity test signal according to N number of response message that test response results include;Really
Minimum emissive power in fixed N number of test signal is operating power.
Specifically, the first routing node generates response message for each test signal, it include pair in each response message
The mark of signal should be tested.After terminal receives test response results, which message determines in M test signal according to response
Test signal is received by the first routing node, i.e., so-called validity test signal, then, terminal can determine validity test signal
Minimum emissive power in corresponding transmission power is operating power.
In aforesaid way 1, the response message of received N number of test signal is returned to terminal by the first routing node, is made
Terminal can determine validity test signal in M test signal by the response message of N number of test signal, and then according to having
Minimum emissive power in the corresponding transmission power of effect test signal determines that operating power, implementation are simple.
Mode 2, the number that signal is tested in power test sequence is arranged according to transmission power size ascending order or descending arranges,
The implementation of step 102 are as follows: the first routing node determines in received N number of test signal that the smallest test of transmission power is believed
Number corresponding mark, returning includes the mark in the test response results of terminal.Terminal according to the mark can be determined to by
The minimum emissive power in signal that first routing node receives, and determine therefrom that operating power.
For example, the number for testing signal in power test sequence is arranged according to transmission power size ascending order (also that is, transmitting
The number of the smaller test signal of power is smaller) when, the test response results that the first routing node generates include N number of test signal
In lowest number;
After terminal receives test response results, determine that the transmission power of the corresponding test signal of lowest number is work
Power.
In another example the number for testing signal in power test sequence is arranged according to transmission power size descending (also that is, hair
The number for penetrating the smaller test signal of power is bigger) when, the test response results that the first routing node generates include N number of test letter
Maximum number in number;
After terminal receives test response results, determine that the transmission power of the corresponding test signal of maximum number is work
Power.
In aforesaid way 2, the first routing node only needs to return to a test signal in above-mentioned N number of test signal to terminal
The number of (that is, test signal of minimum emissive power), terminal can be received by the first routing node according to the number
Minimum emissive power, and determine therefrom that operating power.Since the first via is only needed to return to 1 volume for testing signal by node
Number, volume of transmitted data is considerably reduced, data transmission period is reduced, is effectively saved transfer resource.
Optionally, in aforesaid way 1 or mode 2, terminal is determining that the first routing node can be made to receive signal
Minimum emissive power after, the data more slightly bigger than the minimum emissive power are set by operating power, to ensure first
Routing node can receive the signal of terminal transmission.For example, an allowance can be added on the basis of minimum power as work
Power, alternatively, setting operating power to the average value of the smallest two effective transmission power.The embodiment of the present invention is intended to protection
These deformation schemes based on minimum emissive power.
Optionally, in the case where aforesaid way 1, step 103: the first routing node sends test response knot to terminal
Fruit, when it is implemented, the first reason node can add the response message of above-mentioned N number of test signal in a return information
In, which is returned into terminal.First routing node can also return to the sound of above-mentioned N number of test signal to terminal one by one
Answer message.
Optionally, further include following steps referring to Fig. 3 in the embodiment of the present invention:
Step 201: after the first routing node has the K routing node newly to network in monitoring network, determining K routing
Node is the relative's node of itself, and K is the integer more than or equal to 1;
Step 202: the first routing node sends to terminal and reconnects route instruction;
Step 203: terminal, which receives, reconnects route instruction, and responds reconnect route instruction, in the first via by saving
Father node is determined in point and K routing node.
Specifically, routing node is also likely to be another routing node in the information processing system of the embodiment of the present invention
Child node.With continued reference to Fig. 1, relative's node of the first routing node includes place's first via of the father node of the first routing node
By the child node except node, these nodes are also known as the brotgher of node of first node.Optionally, the relative of the first routing node
Node further includes cousins' node of the first routing node, although so-called cousins' node refers to and the first routing node
Father node it is different, but respective father node possesses the same father node, these cousins' nodes in relative's tree construction with
First routing node is in same grade.
In step 201, the routing node that the first via is newly networked by nodal test is that the mode of the relative's node of itself includes
But it is not limited to:
First, the node newly to network can broadcast advertisement message after network is added, it include itself mark, type in the message
And the set membership of itself, the first routing node can determine according to the above-mentioned notification that the routing node newly to network is broadcasted
Whether it is itself relative's node.
Second, including a central node (cooperative node in such as zigbee network) in information system, which can
Know the type and set membership of each node in network.When there is new addition routing node in network, the central node
Information will be sent to relative's routing node of newly added node, included the mark of newly added node in information, informed the mark
Corresponding node is relative's node of its new networking.
In step 202, after the first via is by nodal test to the relative's routing node newly to network, exist to including the terminal
Interior child node, which is sent, reconnects route instruction, determines among relative's routing node that instruction child node networks at itself and newly
New father node.
This is because after having new routing node that network is added, the topologies change of network, most with the terminal
The routing node that close routing node may change from the first routing node newly to network.But for the first routing node
Relationship is farther out for the routing node of (non-relative's node), and the first routing node of distance is farther out, it is impossible to be nearest away from terminal
Routing node, therefore, for the non-relative's routing node newly to network, the first routing node will not trigger child node again
Routing.When the routing node only newly to network is the relative's node of itself, Cai Huixiang child node sends above-mentioned reconnect routing
Instruction indicates that it determines new father node among itself is with relative's routing node for newly networking.
The concrete mode that father node is determined about terminal, please refers to the various prior arts, and the embodiment of the present invention is no longer described in detail.
The beneficial effect that above-mentioned triggering child node reconnects routing includes: to guarantee that the father node of terminal is always and terminal
Optimal routing node is communicated, can not only guarantee that the data of terminal correctly, can be forwarded rapidly in this way, also as terminal
When communicating with optimal father node, signal is sent with lesser transmission power, can reduce the work that terminal sends signal
Power reduces the power consumption of terminal.And due to the reduction of transmission power, the interference between signal also accordingly reduces, and can be improved
The communication quality of entire communication system.
Based on the same technical idea, the embodiment of the invention also provides a kind of routing devices 300, referring to fig. 4, for routing
The structural schematic block diagram of equipment 300, routing device 300 include: processor 301 and the storage for being connected respectively to processor 301
Device 302 and transceiver 303.
Wherein, transceiver 303 with terminal for being communicated;
Memory 302 is for storing instruction;
Processor 301 is used to execute the instruction of the storage of memory 302, to execute following steps when executing instruction:
After N number of test signal in the power test sequence for receiving terminal transmission by transceiver 303, according to N number of
It tests signal and generates test response results, cycle tests includes the different test signal of M transmission power, and M is more than or equal to 2
Integer, N are the positive integer no more than M;
Test response results are sent to terminal by transceiver 303, so that terminal is believed according to test result from M test
The operating power that signal is sent to the first routing node is determined in number.
Optionally, in the embodiment of the present invention, processor 301 is also used to:
After having the K routing node newly to network in monitoring network, determine that K routing node is that the relative of itself save
Point, K are the integer more than or equal to 1;
It is sent by transceiver 303 to terminal and reconnects route instruction, so that terminal is according to reconnect route instruction
Father node is determined in the first routing node and K routing node.
Optionally, in the embodiment of the present invention, test response results include the response message of N number of test signal;Processor 301
For: test response results are sent to terminal by transceiver 303, so that terminal is according to test result from N number of test signal
Middle determination sends the operating power of signal to the first routing node, comprising:
Test response results are sent to terminal by transceiver 303, so that the N that terminal includes according to test response results
A response message determines that N number of test signal is validity test signal, and determines that the minimum emissive power in N number of test signal is work
The rate of doing work.
Optionally, the number of signal is tested in the embodiment of the present invention, in power test sequence according to transmission power size liter
Sequence arrangement or descending arrangement;
Processor 301 is used for: generating test response results according to N number of test signal, comprising:
When the number for testing signal is arranged according to transmission power size ascending order, the minimum volume in N number of test signal is determined
Number, test response results include lowest number;Or
When the number for testing signal is arranged according to transmission power size descending, the maximum volume in N number of test signal is determined
Number, test response results include maximum number.
Routing device 300 in the present embodiment and aforementioned information processing method based on the same inventive concept under two sides
Face is in front described in detail the implementation process of method, so those skilled in the art can be according to foregoing description
The structure and implementation process of the routing device 300 in the present embodiment is well understood, in order to illustrate the succinct of book, herein just no longer
It repeats.
Based on the same technical idea, it is terminal 400 that the embodiment of the invention also provides a kind of terminals 400 referring to Fig. 5
Structural schematic block diagram, terminal 400 include: processor 401 and the memory 402 for being connected respectively to processor 401 and receive
Hair machine 403.
Wherein, transceiver 403 with the first routing node for being communicated;
Memory 402 is for storing instruction;
Processor 401 is used to execute the instruction of the storage of memory 402, to execute following steps when executing instruction:
Power test sequence is sent to the first routing node by transceiver 403, power test sequence includes M transmitting function
The different test signal of rate, M are the integer more than or equal to 2;
The test response results that the first routing node returns are received by transceiver 403, test accordingly result by the first via
It is generated by test signal N number of in node based on the received power test sequence, N is the positive integer no more than M;
It is tested according to test result from M and determines the operating power for sending signal to the first routing node in signal.
Optionally, in the embodiment of the present invention, processor 401 is also used to:
The reconnect route instruction that the first routing node is sent is received by transceiver 403, reconnects route instruction
The K routing node newly to be networked in determining network by the first routing node is to generate after itself relative's node, and K is big
In the integer for being equal to 1;
Response reconnects route instruction, and father node is determined in the first routing node and K routing node.
Optionally, in the embodiment of the present invention, test response results include the response message of N number of test signal;Processor 401
For: it is tested according to test result from M and determines the operating power for sending signal to the first routing node in signal, comprising:
Determine that N number of test signal is validity test signal according to N number of response message that test response results include;
Determine that the minimum emissive power in N number of test signal is operating power.
Optionally, the number of signal is tested in the embodiment of the present invention, in power test sequence according to transmission power size liter
Sequence arrangement, test response results include the lowest number in N number of test signal;Processor 401 is used for: according to test result from M
The operating power that signal is sent to the first routing node is determined in a test signal, comprising:
The transmission power for determining the corresponding test signal of lowest number is operating power;Or
The number that signal is tested in power test sequence is arranged according to transmission power size descending, and test response results include
Maximum number in N number of test signal, processor 401 are used for: being determined from M test signal to the first via according to test result
The operating power of signal is sent by node, comprising:
The transmission power for determining the corresponding test signal of maximum number is operating power.
Terminal 400 in the present embodiment and aforementioned information processing method be based on the same inventive concept in terms of lower two,
Front is described in detail the implementation process of method, so those skilled in the art can be according to foregoing description clearly
Understand the structure and implementation process of the terminal 400 in the present embodiment, in order to illustrate the succinct of book, details are not described herein again.
It should be noted that the above processor 301, processor 401 can be a processing element, it is also possible to multiple places
Manage the general designation of element.For example, processor 301, processor 401 can be central processing unit (Central Processing
Unit;Referred to as: CPU), it is also possible to specific integrated circuit (Application Specific Intergrated Circuit;
Referred to as: ASIC), it or is arranged to implement one or more integrated circuits of the embodiment of the present invention, such as: it is one or more
Microprocessor (digital singnal processor;Referred to as: DSP), or, one or more field programmable gate array
(Field Programmable Gate Array;Referred to as: FPGA).
Memory 302, memory 402 can be a storage device, be also possible to the general designation of multiple memory elements, and use
Parameter, data required for storage executable program code, resident's access network equipment or terminal operating etc..And it memory 302, deposits
Reservoir 402 may include random access memory (Random-Access Memory;It referred to as: RAM), also may include non-volatile deposit
Reservoir (non-volatile memory;Referred to as: NVM), such as magnetic disk storage, flash memory (Flash) etc..
The one or more technical solutions provided in the embodiment of the present invention, have at least the following technical effects or advantages:
Terminal sends test signal to father node by M different transmission power, and sent according to different transmission power
The response results of signal are tested, determine the operating power to father node transmitting signal.With tube terminal and father do not save in the prior art
What kind of communication environment point is in, and is compared always with biggish rated power to the technical solution that father node sends signal, this hair
The technical solution that bright embodiment provides can reduce terminal on the basis of can guarantee the normal communication between terminal and father node
Transmission power reduces the power consumption of terminal, extends the cruise duration of terminal.Moreover, with the reduction of transmission power, signal it
Between interference also accordingly reduce, and then improve the communication quality of entire communication system.
It should be understood by those skilled in the art that, the embodiment of the present invention can provide as method, system or computer program
Product.Therefore, complete hardware embodiment, complete software embodiment or reality combining software and hardware aspects can be used in the present invention
Apply the form of example.Moreover, it wherein includes the computer of computer usable program code that the present invention, which can be used in one or more,
The computer program implemented in usable storage medium (including but not limited to magnetic disk storage, CD-ROM, optical memory etc.) produces
The form of product.
The present invention be referring to according to the method for the embodiment of the present invention, the process of equipment (system) and computer program product
Figure and/or block diagram describe.It should be understood that every one stream in flowchart and/or the block diagram can be realized by computer program instructions
The combination of process and/or box in journey and/or box and flowchart and/or the block diagram.It can provide these computer programs
Instruct the processor 401 of general purpose computer, special purpose computer, Embedded Processor or other programmable data processing devices with
A machine is generated, so that generating by the instruction that computer or the processor 401 of other programmable data processing devices execute
For realizing the function of being specified in one or more flows of the flowchart and/or one or more blocks of the block diagram
Device.
These computer program instructions, which may also be stored in, is able to guide computer or other programmable data processing devices with spy
Determine in the computer-readable memory that mode works, so that it includes referring to that instruction stored in the computer readable memory, which generates,
Enable the manufacture of device, the command device realize in one box of one or more flows of the flowchart and/or block diagram or
The function of being specified in multiple boxes.
Although preferred embodiments of the present invention have been described, it is created once a person skilled in the art knows basic
Property concept, then additional changes and modifications may be made to these embodiments.So it includes excellent that the following claims are intended to be interpreted as
It selects embodiment and falls into all change and modification of the scope of the invention.
Obviously, various changes and modifications can be made to the invention without departing from essence of the invention by those skilled in the art
Mind and range.In this way, if these modifications and changes of the present invention belongs to the range of the claims in the present invention and its equivalent technologies
Within, then the present invention is also intended to include these modifications and variations.
Claims (16)
1. a kind of information processing method is applied to the first routing node characterized by comprising
After N number of test signal in the power test sequence for receiving terminal transmission, generates and survey according to N number of test signal
Response results are tried, the cycle tests includes the different test signal of M transmission power, and the M is the integer more than or equal to 2, N
For the positive integer no more than M, the test response results, which characterize the first routing node, can be properly received N number of test letter
Number, remaining M-N test signal cannot be properly received;
Test response results are sent to the terminal, so that the terminal is believed according to the test result from the M test
The operating power that signal is sent to first routing node is determined in number.
2. the method according to claim 1, wherein the method also includes:
After having the K routing node newly to network in monitoring network, determine that the K routing node is that the relative of itself save
Point, the K are the integer more than or equal to 1;
It is sent to the terminal and reconnects route instruction, so that the terminal is according to the reconnect route instruction described
Father node is determined in first routing node and the K routing node.
3. method according to claim 1 or 2, which is characterized in that the test response results include N number of test letter
Number response message;
Test response results are sent to the terminal, so that the terminal is believed according to the test result from N number of test
The operating power that signal is sent to first routing node is determined in number, comprising:
Test response results are sent to the terminal, so that N number of sound that the terminal includes according to the test response results
It answers message to determine that N number of test signal is validity test signal, and determines the minimum emissive power in N number of test signal
For the operating power.
4. method according to claim 1 or 2, which is characterized in that test the number of signal in the power test sequence
According to the arrangement of transmission power size ascending order or descending arrangement;
Test response results are generated according to N number of test signal, comprising:
When the number for testing signal is arranged according to transmission power size ascending order, the minimum volume in N number of test signal is determined
Number, the test response results include the lowest number;Or
When the number for testing signal is arranged according to transmission power size descending, the maximum volume in N number of test signal is determined
Number, the test response results include the maximum number.
5. a kind of information processing method is applied to terminal characterized by comprising
Power test sequence is sent to the first routing node, the power test sequence includes the different test of M transmission power
Signal, the M are the integer more than or equal to 2;
The test response results that first routing node returns are received, the test response results are by first routing node
N number of test signal is generated in the power test sequence based on the received, and N is the positive integer no more than M, the test response
As a result N number of test signal can be properly received by characterizing the first routing node, cannot be properly received remaining M-N test letter
Number;
It is tested according to the test result from described M and determines the work function for sending signal to first routing node in signal
Rate.
6. according to the method described in claim 5, it is characterized in that, the method also includes:
The reconnect route instruction that first routing node is sent is received, the reconnect route instruction is described first
The K routing node that routing node newly networks in determining network to be generated after itself relative's node, the K be greater than
Integer equal to 1;
The reconnect route instruction is responded, father's section is determined in first routing node and the K routing node
Point.
7. method according to claim 5 or 6, which is characterized in that the test response results include N number of test letter
Number response message;
It is tested according to the test result from described M and determines the work function for sending signal to first routing node in signal
Rate, comprising:
Determine that N number of test signal is validity test signal according to N number of response message that the test response results include;
Determine that the minimum emissive power in N number of test signal is the operating power.
8. method according to claim 5 or 6, it is characterised in that:
The number that signal is tested in the power test sequence is arranged according to transmission power size ascending order, the test response results
Including the lowest number in N number of test signal;It is described according to the test result from the M test signal determine to
First routing node sends the operating power of signal, comprising:
The transmission power for determining the corresponding test signal of the lowest number is the operating power;Or
The number that signal is tested in the power test sequence is arranged according to transmission power size descending, the test response results
Including the maximum number in N number of test signal, it is described according to the test result from the M test signal determination to
First routing node sends the operating power of signal, comprising:
The transmission power for determining the corresponding test signal of the maximum number is the operating power.
9. a kind of routing device characterized by comprising
Transceiver, for being communicated with terminal;
Memory, for storing instruction;
Processor is connected with the transceiver and the storage unit respectively, for executing the instruction of the memory storage,
To execute following steps when executing described instruction:
After N number of test signal in the power test sequence sent by the transceiver to the terminal, according to institute
It states N number of test signal and generates test response results, the cycle tests includes the different test signal of M transmission power, the M
For the integer more than or equal to 2, N is the positive integer no more than M, and the test response results, which characterize the first routing node, to succeed
N number of test signal is received, remaining M-N test signal cannot be properly received;
By the transceiver to the terminal send test response results so that the terminal according to the test result from
The operating power that signal is sent to first routing node is determined in the M test signal.
10. routing device according to claim 9, which is characterized in that the processor is also used to:
After having the K routing node newly to network in monitoring network, determine that the K routing node is that the relative of itself save
Point, the K are the integer more than or equal to 1;
It is sent by the transceiver to the terminal and reconnects route instruction, so that the terminal is according to the reconnect
Route instruction determines father node in first routing node and the K routing node.
11. routing device according to claim 9 or 10, which is characterized in that the test response results include described N number of
Test the response message of signal;The processor is used for: test response results are sent to the terminal by the transceiver, with
So that the terminal is determined from N number of test signal to first routing node according to the test result sends signal
Operating power, comprising:
Test response results are sent to the terminal by the transceiver, are tied so that the terminal is responded according to the test
N number of response message that fruit includes determines that N number of test signal is validity test signal, and determines in N number of test signal
Minimum emissive power be the operating power.
12. routing device according to claim 9 or 10, which is characterized in that test signal in the power test sequence
Number according to transmission power size ascending order arrange or descending arrange;
The processor is used for: generating test response results according to N number of test signal, comprising:
When the number for testing signal is arranged according to transmission power size ascending order, the minimum volume in N number of test signal is determined
Number, the test response results include the lowest number;Or
When the number for testing signal is arranged according to transmission power size descending, the maximum volume in N number of test signal is determined
Number, the test response results include the maximum number.
13. a kind of terminal characterized by comprising
Transceiver, for being communicated with the first routing node;
Memory, for storing instruction;
Processor is connected with the transceiver and the storage unit respectively, for executing the instruction of the memory storage,
To execute following steps when executing described instruction:
Power test sequence is sent to the first routing node by the transceiver, the power test sequence includes M transmitting
The different test signal of power, the M are the integer more than or equal to 2;
The test response results returned by the first routing node described in the transceiver, the test response results are by institute
Stating the first routing node, N number of test signal is generated in the power test sequence based on the received, and N is just whole no more than M
Number, the test response results, which characterize the first routing node, can be properly received N number of test signal, cannot be properly received it
Remaining M-N test signal;
It is tested according to the test result from described M and determines the work function for sending signal to first routing node in signal
Rate.
14. terminal according to claim 13, which is characterized in that the processor is also used to:
The reconnect route instruction sent by the first routing node described in the transceiver, the reconnect routing
Instruct is to give birth to after itself relative's node by the K routing node that first routing node newly networks in determining network
At the K is the integer more than or equal to 1;
The reconnect route instruction is responded, father's section is determined in first routing node and the K routing node
Point.
15. terminal described in 3 or 14 according to claim 1, which is characterized in that the test response results include N number of survey
The response message of trial signal;The processor is used for: being determined from the M test signal to described according to the test result
The operating power of first routing node transmission signal, comprising:
Determine that N number of test signal is validity test signal according to N number of response message that the test response results include;
Determine that the minimum emissive power in N number of test signal is the operating power.
16. terminal described in 3 or 14 according to claim 1, it is characterised in that:
The number that signal is tested in the power test sequence is arranged according to transmission power size ascending order, the test response results
Including the lowest number in N number of test signal;The processor is used for: being tested according to the test result from described M
The operating power that signal is sent to first routing node is determined in signal, comprising:
The transmission power for determining the corresponding test signal of the lowest number is the operating power;Or
The number that signal is tested in the power test sequence is arranged according to transmission power size descending, the test response results
Including the maximum number in N number of test signal, the processor is used for: being tested according to the test result from described M
The operating power that signal is sent to first routing node is determined in signal, comprising:
The transmission power for determining the corresponding test signal of the maximum number is the operating power.
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Publication number | Priority date | Publication date | Assignee | Title |
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CN101873617A (en) * | 2010-06-12 | 2010-10-27 | 华为终端有限公司 | Method, system and mobile terminal for radio frequency power calibration |
CN102237934A (en) * | 2010-04-26 | 2011-11-09 | 中国移动通信集团公司 | Test method of terminal data transmission performance, system and apparatus thereof |
CN103535109A (en) * | 2011-03-30 | 2014-01-22 | 爱立信(中国)通信有限公司 | Methods and arrangements in a wireless communication system |
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CN102237934A (en) * | 2010-04-26 | 2011-11-09 | 中国移动通信集团公司 | Test method of terminal data transmission performance, system and apparatus thereof |
CN101873617A (en) * | 2010-06-12 | 2010-10-27 | 华为终端有限公司 | Method, system and mobile terminal for radio frequency power calibration |
CN103535109A (en) * | 2011-03-30 | 2014-01-22 | 爱立信(中国)通信有限公司 | Methods and arrangements in a wireless communication system |
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