CN106341468A - Remote wakeup method, device and system of intelligent equipment - Google Patents

Abstract

The invention relates to a remote wakeup method, device and system of intelligent equipment. The method comprises the following steps that wakeup request information sent by a master control device is received, and the wakeup request information comprises unique identification data of the intelligent equipment; an optimal transmission path to transmit data to the intelligent equipment in the peer-to-peer network is determined, and both the master control device and the intelligent equipment are positioned in the peer-to-peer network; and a wakeup instruction is sent to the intelligent equipment on the basis of the optimal transmission path, and the wakeup instruction is used to switch the intelligent equipment from a standby state to a wakeup state. According to technical schemes of the invention, the concept of the peer-to-peer network is introduced so that remote wakeup between the master control device and the intelligent equipment is not limited in the same local area network, spatial limit is overcome, the optimal transmission path is determined according to present operation condition of the peer-to-peer network, remote wakeup is more instant, and operation experience of users is optimized greatly.

Description

A kind of remote wake-up method of smart machine, apparatus and system

Technical field

The present invention relates to controlled in wireless field, more particularly to a kind of remote wake-up method of smart machine, device and be System.

Background technology

With scientific and technological development, the popularization of smart machine has led the change of people's habits and customs, gives birth to family from office Live, what smart machine such as mobile phone, ipad etc. was subtle is changing daily life mode.Additionally, intelligent appliance Also gradually instead of traditional home appliance, become the first-selection of popular buying.As a branch of smart machine, intelligent appliance with The maximum difference of traditional home appliance, is that intelligent appliance with Internet connectivity, and can be received by network and transmission information.Exactly The exploitation of this function, user is no longer limited to specific remote control to the control of household electrical appliances so that controlling based on a remote control The ideal of all intelligent appliances in family processed is possibly realized.

On this basis, existing intelligent appliance manufacturers further contemplate that by the interaction of smart machine and intelligent appliance Lai Thoroughly break away from the constraint of remote control.This operator scheme controlling intelligent appliance by smart machine is just gradually in society Middle popularization, increasing family has welcome the Intelligent housing epoch.The existing control based on smart machine to intelligent appliance System is using local area network technology mostly so as to enable information with the intelligent appliance in a LAN and smart machine mutual The functions such as logical, information sharing, operation cross complaint, unified management.For example, the intelligent television of family is in holding state, then user is Make now to be in other rooms, remain to the connection by smart mobile phone on hand and home router, intelligent television is called out Wake up and operate, this undoubtedly provides facility for user to the manipulation of smart machine.But, the realization of existing smart machine control technology Premise is control device and controlled device is under same LAN covers, user cannot local area network cover beyond intelligence Equipment carries out Remote Wake Up, and this just causes to the daily life experience of user and has a strong impact on.

Disclose a kind of intelligent television and its remotely call out in the Chinese earlier application of Application No. 201310663919.4 Awake method, sends boot-strap information to server by network communication device, the wireless network module of intelligent television is from server end Receive boot-strap information, and then the power management chip based on intelligent television and processing unit complete to interrupt standby action.Though this So can solve the problems, such as to a certain extent user cannot Remote Wake Up intelligent appliance, but, as controlling party in this scheme Network communication device and intelligent television between signal transmission path be fixing, if signal transmission path simultaneously process Data volume is excessive, easily causes the delay of communication in practical operation, is unfavorable for the instant control to intelligent television for the user.

At this stage, in most cases, user can only pass through a smart machine control separately under same LAN One or more smart machines outward, or pass through existing transit server, realize the Remote Wake Up of different intelligent equipment.But It is that existing Remote Wake Up effect may be had a greatly reduced quality because of the delay of communication signal, is unfavorable for user to smart machine Long-range instant on.

Content of the invention

Present invention solves the technical problem that being the restriction how departing from LAN, intelligence being realized with less transmission delay and sets The problem of standby Remote Wake Up.

For solving above-mentioned technical problem, the embodiment of the present invention provides a kind of remote wake-up method of smart machine, including such as Lower step: receive the wake request information that main control device sends, described wake request information includes the unique of described smart machine Mark data；Determine in peer-to-peer network to described smart machine transmit data optimal transmission paths, described main control device and Smart machine is located in described peer-to-peer network；Sent to described smart machine based on described optimal transmission paths and wake up instruction, institute State wake-up instruction to be used for so that described smart machine switches to wake-up states from holding state.

Optionally, described remote wake-up method also comprises the steps: to send wake-up feedback information to described main control device, Described wake-up feedback information includes the wake-up result of described smart machine.

Optionally, described optimal transmission paths include the preferred transmission path carrying out data transmission to destination router, institute State destination router be located at described peer-to-peer network in and couple with described smart machine, described destination router also with overlay area Interior other smart machines one or more couple.

Optionally, described preferred transmission path is based on following steps and determines: the unique mark number based on described smart machine The described destination router coupling with described smart machine phase according to determination；Work based on each node in described peer-to-peer network takies Rate, determines described preferred transmission path.

Optionally, described transmission to described smart machine based on described optimal transmission paths wakes up instruction, walks including following Rapid: described wake-up is sent to described destination router based on described preferred transmission path and instructs, and by described destination router warp Instruction is waken up to the transmission of described smart machine is described from LAN.

Optionally, described unique identification data is the network site address generation based on described smart machine.

The embodiment of the present invention also provides a kind of remote wake-up method of smart machine, comprising: main control device is to peer-to-peer network Send wake request information, described wake request information includes the unique identification data of described smart machine, described main control device It is located in described peer-to-peer network with smart machine；Described peer-to-peer network determines the optimal transmission transmitting data to described smart machine Path, and send wake-up instruction based on described optimal transmission paths to described smart machine；Described smart machine is based on described calling out Instruction of waking up switches to wake-up states from holding state.

Optionally, described smart machine is based on described wake-up instruction and switches to wake-up states from holding state, including as follows Step: the monitoring module of described smart machine receives described wake-up and instructs, wakes up instruction to described smart machine based on described Main control unit sends interrupt signal, to control described main control unit to switch to wake-up states from holding state.

The embodiment of the present invention also provides a kind of remote awakening device of smart machine, comprising: receiver module, for receiving master The wake request information that control equipment sends, described wake request information includes the unique identification data of described smart machine；Determine Module, for determine in peer-to-peer network to described smart machine transmit data optimal transmission paths, described main control device and Smart machine is located in described peer-to-peer network；First sending module, for being set to described intelligence based on described optimal transmission paths Preparation send wake-up instruction, and described wake-up instruction is used for so that described smart machine switches to wake-up states from holding state.

Optionally, described remote awakening device also includes: the second sending module, wakes up for sending to described main control device Feedback information, described wake-up feedback information includes the wake-up result of described smart machine.

Optionally, described optimal transmission paths include the preferred transmission path carrying out data transmission to destination router, institute State destination router be located at described peer-to-peer network in and couple with described smart machine, described destination router also with overlay area Interior other smart machines one or more couple.

Optionally, described determining module includes the preferred path determining module for determining described preferred transmission path, institute State preferred path determining module to include: the first determination sub-module, determine for the unique identification data based on described smart machine The described destination router coupling with described smart machine phase；Second determination sub-module, for based on each in described peer-to-peer network The work occupancy of node, determines described preferred transmission path.

Optionally, described first sending module includes: sending submodule, for based on described preferred transmission path to described Destination router sends described wake-up and instructs, and transmits institute via LAN to described smart machine from described destination router State wake-up instruction.

Optionally, described unique identification data is the network site address generation based on described smart machine.

The embodiment of the present invention also provides a kind of remote wakening system of smart machine, comprising: main control end, for peer-to-peer network Network sends wake request information, and described wake request information includes the unique identification data of described smart machine, described main control end It is located in described peer-to-peer network with smart machine；Described peer-to-peer network, for determining to described smart machine transmission data Excellent transmission path, and send wake-up instruction based on described optimal transmission paths to described smart machine；And described smart machine, For wake-up states are switched to from holding state based on described wake-up instruction.

Compared with prior art, the technical scheme of the embodiment of the present invention has the advantages that

Transmit the wake-up instruction of main control device based on peer-to-peer network to smart machine, because peer-to-peer network can be according to network In the factor such as work occupancy of each node carry out reasonable adjusting data transfer path, than existing, line number is entered based on fixed route Technical scheme according to transmission is more flexible, it is to avoid the transmission delay that causes because of the signal congestion of single-pathway, leads to master control to set The standby wake-up to smart machine situation not in time, is conducive to the operating experience of user.

Further, forwarded by destination router and wake up instruction, it is possible to use single target router is in overlay area One or more smart machines waken up so that the user in overlay area voluntarily need not arrange router again, thus can To realize the wake-up of smart machine using the networking mode more simplified.

Further, using unique identification data as smart machine identity information, due to described unique identification data tool Have uniqueness, this needs the smart machine that wakes up to be easy to determine in a peer-to-peer network user, it is to avoid the wake-up of mistake other The situation of smart machine.

Brief description

Fig. 1 is a kind of flow chart of the remote wake-up method of smart machine of the first embodiment of the present invention；

Fig. 2 is a kind of flow chart of the remote wake-up method of smart machine of the second embodiment of the present invention；

Fig. 3 is a kind of sequential chart of the remote wake-up method of smart machine of the third embodiment of the present invention；

Fig. 4 is a kind of structural representation of the remote awakening device of smart machine of the fourth embodiment of the present invention；And

Fig. 5 is a kind of structure chart of the remote wakening system of smart machine of the fifth embodiment of the present invention.

Specific embodiment

It will be appreciated by those skilled in the art that in order to realize the Remote Wake Up to smart machine, prior art still is limited to be based on The smart machine Remote Wake Up operation of same LAN, but, because the control instruction of this Remote Wake Up is based on LAN In fixed route transmission, wake-up effect very likely can be had a greatly reduced quality because of the delay of communication signal, is unfavorable for user couple The long-range instant on of smart machine.

In order to solve this technical problem, technical scheme of the present invention is based on peer-to-peer network and transmits master control to smart machine The wake-up instruction of equipment, because peer-to-peer network can be according to the work occupancy of node each in network come reasonable adjusting data transfer The feature in path is so that the data transfer in network is more flexible, it is to avoid the transmission causing because of the signal congestion of single-pathway Postpone, lead to main control device situation to the wake-up of smart machine not in time, be conducive to the operating experience of user.

In a preferred embodiment of the invention, main control end sends wake request information to peer-to-peer network, and request wakes up It is located on the smart machine in described peer-to-peer network with described main control end one, described peer-to-peer network is based on described wake request information Including unique identification data determine corresponding described smart machine, and the work according to node each in presently described peer-to-peer network Occupancy determines the optimal transmission paths to described smart machine transmission data, based on described optimal transmission paths to described intelligence Equipment sends and wakes up instruction, and described smart machine is based on described wake-up instruction and switches to wake-up states from holding state.Further Ground, by waking up instruction with smart machine described in destination router transfer that is in described peer-to-peer network and coupling, described Destination router can be eliminated user and voluntarily arranged router with the one or more smart machines in centralized Control overlay area Worry, be that user saves the space occupancy rate in family for the various devices.

Above-mentioned purpose, feature and beneficial effect for enabling the present invention becomes apparent from understandable, below in conjunction with the accompanying drawings to this The specific embodiment of invention is described in detail.

Fig. 1 is a kind of flow chart of the remote wake-up method of smart machine of the first embodiment of the present invention, and the method can So that in the execution of peer-to-peer network side, more specifically, the server end execution of peer-to-peer network can be being maintained.Wherein, described intelligence Equipment can include intelligent appliance etc. and with Internet connectivity, and can receive and send the device end of information by network, example As intelligent television, sweeping robot etc..

Specifically, in the present embodiment, step s101 is first carried out, receives the wake request information that main control device sends, Described wake request information includes the unique identification data of described smart machine.More specifically, described unique identification data is Network site address based on described smart machine generates.Further, described main control device can be connectable to The device end of internet, for example, mobile phone, ipad etc..Preferably, described network site address includes media access control address (media access control address, i.e. mac address).In a preference, it is in advance based on described smart machine Mac address generate corresponding described unique identification data, so that when receiving the wake request letter that described main control device sends During breath, corresponding smart machine can be determined according to the described unique identification data that described wake request information includes, and then The follow-up wake operation of the execution embodiment of the present invention.

Subsequently into the execution of step s102, determine the optimal transmission transmitting data in peer-to-peer network to described smart machine Path, described main control device and smart machine are located in described peer-to-peer network.Specifically, described peer-to-peer network (peer-to- Peer networking, i.e. p2p network) for providing point to positioned at one or more of described peer-to-peer network smart machine Arrive the data transport service of point.More specifically, the smart machine in described peer-to-peer network can be described as node.Excellent Selection of land, can no longer place one's entire reliance upon positioned between any two smart machine in described peer-to-peer network special centralized servers Or special work station carries out data relay.Described peer-to-peer network includes multiple nodes, described optimal transmission paths include from Main control device transmission wakes up instruction to smart machine node to be passed through.In a preference, can be worked as according to each node Front work occupancy is determining described optimal transmission paths, so as to transmitting number with the shortest time to described smart machine According to the instant on to described smart machine for the realization.

Finally, execution step s103, is sent to described smart machine based on described optimal transmission paths and wakes up instruction, described Wake up instruction to be used for so that described smart machine switches to wake-up states from holding state.Specifically, described smart machine is permissible Receive described wake-up based on monitoring module to instruct.More specifically, described monitoring module is preset in described smart machine, or Can be arranged on elsewhere and communicate with described smart machine.Preferably, described monitoring module can be wifi module.? In one preference, call out described in described peer-to-peer network transmission when described wifi module is received based on described optimal transmission paths Wake up after instruction, send interrupt signal to the main control unit (for example, main mcu) of described smart machine, described interrupt signal includes spy Different wake-up information, is started working with waking up described main mcu, so that described smart machine switches to wake-up states.

Further, described unique identification data can also include Internet protocol address (internet protocol Address, i.e. ip address) etc. enable to the information that controlled described smart machine is different from other smart machines in network.

Further, when described smart machine is in holding state, described monitoring module is in low power consumpting state, this When, described monitoring module has the ability intercepting and sending monitoring signal, to keep the connection and described peer-to-peer network between.Enter One step ground, after described smart machine is switched to wake-up states from described holding state, described monitoring module is also into normal Working condition.Preferably, the monitoring signal under described low power consumpting state has the characteristics that data volume is little, communication frequency is low, with To maintain the low power operation state of described monitoring module, to save equipment power consumption, be conducive to the sustainable development of environment.

In a change case of the present embodiment, also include step after described step s103 and " send to described main control device Wake up feedback information, described wake-up feedback information includes the wake-up result of described smart machine ", described wake-up result can include Wake up successful information or wake up failure information.For example, have sent to described smart machine based on described optimal transmission paths Described wake up instruction after, wait described smart machine feedback, if described smart machine within the restriction time to described peer-to-peer network Network have sent wake-up successful information it is determined that described smart machine is switched to wake-up states from holding state；If but described Smart machine have sent wake-up failure information to described peer-to-peer network within the restriction time, or not within the described restriction time to Described peer-to-peer network send feedback information is it is determined that described smart machine fails to be switched to wake-up states from holding state.Preferably Ground, the described restriction time can be 10s by user preset, those skilled in the art can also become according to actual needs dissolve more Embodiment, this has no effect on the technology contents of the present invention.It will be appreciated by those skilled in the art that in the technical scheme of this change case, Preferably this is monitored by described wake-up feedback information and successfully whether the Remote Wake Up of described smart machine is operated, to use Family can know the Remote Wake Up result to described smart machine in time, and then is directed to this Remote Wake Up result, especially When wake up result be unsuccessfully when, further remedial measure can be taken in time.

By upper, the scheme of first embodiment, by the peer-to-peer network residing for described main control device and described smart machine In, the work occupancy of each node come the optimal transmission paths of data transfer of making rational planning for so that the data transfer in network more Plus flexibly.Compared with existing smart machine awakening technology, it is to avoid the transmission delay that causes because of the signal congestion of single-pathway, Lead to main control device situation to the wake-up of smart machine not in time, be conducive to the operating experience of user.

Fig. 2 is a kind of flow chart of the remote wake-up method of smart machine of the second embodiment of the present invention.Specifically, exist In the present embodiment, step s201 is first carried out, receives the wake request information that main control device sends, described wake request packet Include the unique identification data of described smart machine.More specifically, described unique identification data is based on described smart machine Network site address generates.Further, those skilled in the art may be referred to step shown in above-mentioned embodiment illustrated in fig. 1 S101, will not be described here.

Subsequently into the execution of step s202, determine the optimal transmission transmitting data in peer-to-peer network to described smart machine Path, described main control device and smart machine are located in described peer-to-peer network.Specifically, described peer-to-peer network (peer-to- Peer networking, i.e. p2p network) for providing point to positioned at one or more of described peer-to-peer network smart machine Arrive the data transport service of point.More specifically, those skilled in the art may be referred to step shown in above-mentioned embodiment illustrated in fig. 1 S102, will not be described here.

Next execution step s203, is sent to destination router based on preferred transmission path and wakes up instruction.Specifically, institute The described optimal transmission paths stating the determination of step s202 include the preferred transmission path that carries out data transmission to destination router, and Instruction is waken up via LAN to the transmission of described smart machine is described from described destination router.More specifically, described mesh Mark router is located in described peer-to-peer network and is coupled with described smart machine.Further, described destination router also with Other smart machines one or more in overlay area couple.In a preference, unique based on described smart machine The described destination router that mark data determination is coupled with described smart machine phase, the work based on each node in described peer-to-peer network Make occupancy, determine described preferred transmission path, then, described wake-up instruction is not directly sent to institute by described peer-to-peer network State smart machine, but described wake-up is sent to described destination router based on described preferred transmission path and instructs, then by described Destination router passes on described wake-up to instruct to described smart machine.

Further, described LAN includes the communication chain that described destination router and described smart machine are formed Road.More specifically, described LAN is carried out data transmission based on internet.In a preference, described target route Device is communicated based on the described LAN that wireless wifi is constituted with the multiple smart machines in overlay area, described target route After device receives the described wake-up instruction that described peer-to-peer network sends, based on the described described smart machine waking up instruction inclusion Unique identification data determines to be needed to pass on the described smart machine waking up instruction, and then transmits described wake-up to described smart machine Instruction.

Further, described destination router can be arranged in units of family, or, described destination router is acceptable Arranged in units of residential area, those skilled in the art can become according to actual needs and dissolve more embodiments, and here is refused Repeat.Furthermore, the layout of described destination router and setting similar to the base station in mobile communication, positioned at peer-to-peer network Interior multiple destination routers are separately positioned on different regions, and the intelligent terminal in destination router covering area range is permissible Access peer-to-peer network via destination router.

In one preferably application scenarios, described destination router, described destination router are set in units of cell Couple with the multiple smart machines in overlay area, described peer-to-peer network can prestore described destination router and with institute State the corresponding relation of the plurality of smart machine that destination router couples, described corresponding relation can be based on described smart machine Unique identification data determine.For example, described destination router corresponds to multiple unique identification data, each described unique mark number According to representing a smart machine coupling with described destination router.Send out when described peer-to-peer network receives described main control device After the wake request information sent, the unique identification data of the described smart machine being included based on described wake request information is carried out Search, if the corresponding relation of described peer-to-peer network storage includes described unique identification data, determined based on described corresponding relation Suitable destination router, and then determine the preferred transmission path to described destination router transmission data, described target route After device receives the described wake-up instruction based on described preferred transmission path transmission for the described peer-to-peer network, wake up instruction based on described Including described smart machine unique identification data, filter out from the smart machine coupling with described destination router and meet Described smart machine and to described smart machine transmission described wake up instruction, complete to set to described intelligence from described main control device Standby Remote Wake Up operation.

Further, described corresponding relation be may be stored in described destination router and communicated with described peer-to-peer network External memory in or high in the clouds, those skilled in the art can become according to actual needs and dissolve more embodiments, and this is simultaneously Do not affect the technology contents of the present invention.

By upper, using the scheme of second embodiment, step s203 described in the present embodiment and described step s204 can be managed Solve a specific embodiment of step s103 described in above-mentioned embodiment illustrated in fig. 1.It will be appreciated by those skilled in the art that above-mentioned figure Technical scheme described in 1 illustrated embodiment it is desirable to described smart machine and described main control device are respectively positioned in described peer-to-peer network, with Realize the data transfer of point-to-point.And technical scheme described in the present embodiment then replaces described smart machine by described destination router It is linked in described peer-to-peer network, to receive the wake-up instruction that described peer-to-peer network sends.Further, described destination router Multiple smart machines can be managed, the composition structure optimizing described peer-to-peer network is so that be unsatisfactory for the intelligence of node requirements simultaneously Equipment equally can enjoy the service that described peer-to-peer network provides.

Fig. 3 is a kind of sequential chart of the remote wake-up method of smart machine of the third embodiment of the present invention.Specifically, exist In the present embodiment, described main control device, described peer-to-peer network and described smart machine execute above-mentioned sequentially in time successively Remote wake-up method described in Fig. 1 and above-mentioned Fig. 2.In one preferably application scenarios, described main control device is first carried out Described step s1, sends wake request information to described peer-to-peer network, and described wake request information includes described smart machine Unique identification data, described main control device and smart machine are located in described peer-to-peer network.Described peer-to-peer network is based on described calling out Awake solicited message execution step s2, determines the optimal transmission paths transmitting data to described smart machine, and step s3, is based on Described optimal transmission paths send to described smart machine and wake up instruction.Described smart machine is receiving described wake-up instruction Afterwards, execution step s4, switches to wake-up states based on described wake-up instruction from holding state.Further, described smart machine After having executed described step s4, also execution step s5, send to described main control device and wake up feedback information, described wake-up feedback Information includes the wake-up result of described smart machine.

Further, when executing described step s4, the monitoring module of described smart machine receives described wake-up and instructs, base Wake up the main control unit transmission interrupt signal to described smart machine for the instruction in described, to control described main control unit from standby shape State switches to wake-up states.

In a change case of the present embodiment, described step s5 may alternatively be step s6, to described peer-to-peer network Send and wake up feedback information；And step s7, the optimal transmission paths being redefined based on described peer-to-peer network are to described master control Equipment transmits described wake-up feedback information.It will be appreciated by those skilled in the art that when executing step s5 described in the present embodiment, being to be based on Described peer-to-peer network sends the described optimal transmission paths waking up and determining during instruction, carries out reverse data transmission realization.And this Work preferably when carrying out reverse data transmission, based on each node in presently described peer-to-peer network for the technical scheme described in change case Redefine optimal transmission paths as occupancy, and set to described master control based on the described optimal transmission paths redefining Preparation send described wake-up feedback information, and according to the real work situation of node each in described peer-to-peer network, flexible design data passes Defeated optimal path, is conducive to the promptness of data communication, optimizes the Remote Wake Up experience of user.

Fig. 4 is a kind of structural representation of the remote awakening device of smart machine of the fourth embodiment of the present invention.Ability Field technique personnel understand, remote awakening device 4 described in the present embodiment is used for implementing above-mentioned Fig. 1 to above-mentioned embodiment illustrated in fig. 3 Described method and technology scheme.Specifically, in the present embodiment, described remote awakening device 4 includes receiver module 41, is used for connecing Receive the wake request information that main control device sends, described wake request information includes the unique identification data of described smart machine； Determining module 42, for determining the optimal transmission paths transmitting data in peer-to-peer network to described smart machine, described master control Equipment and smart machine are located in described peer-to-peer network；First sending module 43, for based on described optimal transmission paths to institute State smart machine and send wake-up instruction, described wake-up instruction is used for so that described smart machine switches to wake-up shape from holding state State.Further, described remote awakening device 4 also includes the second sending module 44, wakes up for sending to described main control device Feedback information, described wake-up feedback information includes the wake-up result of described smart machine.

Preferably, described optimal transmission paths include the preferred transmission path carrying out data transmission to destination router, institute State destination router be located at described peer-to-peer network in and couple with described smart machine, described destination router also with overlay area Interior other smart machines one or more couple.

Preferably, described determining module 42 includes the preferred path determining module for determining described preferred transmission path, Described preferred path determining module includes the first determination sub-module 421, for the unique identification data based on described smart machine Determine the described destination router coupling with described smart machine phase；And second determination sub-module 422, for based on described right Deng the work occupancy of each node in network, determine described preferred transmission path.

Preferably, described first sending module 43 includes sending submodule 431, for based on described optimal transmission paths to Described destination router sends described wake-up and instructs, and is passed to described smart machine from described destination router via LAN Described wake-up is sent to instruct.

Preferably, described unique identification data is the network site address generation based on described smart machine

With regard to more contents of the operation principle of described remote awakening device 4, working method, it is referred to Fig. 1's to Fig. 3 Associated description, repeats no more here.

Fig. 5 is a kind of structure chart of the remote wakening system of smart machine of the fifth embodiment of the present invention, for implementing Remote wake-up method described in above-mentioned Fig. 1 to Fig. 3.Further, the remote awakening device 4 shown in above-mentioned Fig. 4 can be integrated in In the corresponding background server of peer-to-peer network 4 shown in the present embodiment, the corresponding background server of described peer-to-peer network 4 can be special Door, for processing the server of the embodiment of the present invention, can also be other comprehensive servers communicating with described peer-to-peer network 4. It will be appreciated by those skilled in the art that compared with existing background server, the corresponding backstage of peer-to-peer network 4 shown in the embodiment of the present invention Server is preferably used for being determined to described smart machine according to the current work occupancy of each node in described peer-to-peer network 4 The optimal transmission paths of 6 transmission datas, described background server itself is not processed to the data needing transmission.

Preferably, described remote wakening system 1 includes main control end 2, for sending wake request information, institute to peer-to-peer network State the unique identification data that wake request information includes described smart machine 6, described main control end 2 and smart machine 6 are positioned at described In peer-to-peer network 4；Peer-to-peer network 4, for determining the optimal transmission paths transmitting data to described smart machine 6, and is based on institute State optimal transmission paths and send wake-up instruction to described smart machine 6；And smart machine 6, for waking up instruction based on described Switch to wake-up states from holding state.Preferably, described main control end 2 includes above-mentioned Fig. 1 to master control described in embodiment illustrated in fig. 3 Equipment.

Preferably, described peer-to-peer network 4 includes multiple nodes, for example, node 41 as shown in Figure 5, node 42, node 43 And node 44.It will be appreciated by those skilled in the art that the number of nodes accessing in described peer-to-peer network 4 can enter according to actual needs Row change, and should not be limited to described four nodes shown in Fig. 5.

Preferably, described remote wakening system 1 also includes destination router 5, for receiving what described peer-to-peer network 4 sent Wake up instruction, and transmit described wake-up to described smart machine 6 and instruct.

In one preferably application scenarios, the corresponding background server of described peer-to-peer network 4 is with app form described Front end is arranged on main control end 2, user can select to determine that this needs the smart machine 6 of Remote Wake Up on described app, described App selects to send, by mobile communication technology, the unique mark including described smart machine 6 to described peer-to-peer network 4 based on user Know the wake request information of data, the corresponding background server of described peer-to-peer network 4 is based on described wake request information and determines to be made For the destination router 5 of data receiver, be then based on node 41, node 42, node 43 that described peer-to-peer network 4 includes and The current work occupancy of node 44 is determining the optimal transmission paths to described destination router 5 transmission data, and is based on institute State optimal transmission paths and send wake-up instruction to described destination router 5, described destination router 5 receives described wake-up and instructs Afterwards, referred to the transmission wake-up of described smart machine 6 according to the described unique identification data waking up the described smart machine 6 that instruction includes Order, described smart machine 6 is based on described wake-up instruction and switches to wake-up states from holding state.

Further, user is associated with multiple smart machines, and the ip address based on described smart machine on described app Generate unique identification data, to distinguish different smart machines.

Further, described destination router 5 and the multiple smart machines in coverage couple, and to described peer-to-peer network The unique identification data of open each the described smart machine coupling of network 4.When including multiple target roads in described peer-to-peer network 4 During by device, the corresponding background server of described peer-to-peer network 4 can determine according to each information disclosed in described destination router 5 This needs to send the destination router 5 waking up instruction.Preferably, described coverage can in units of family, or, also Can be in units of community, those skilled in the art can become according to actual needs and dissolve more embodiments, will not be described here.

In another preferably application scenarios, described smart machine 6 is being cut from holding state based on described wake-up instruction After being changed to wake-up states, also send to described main control end 2 and wake up feedback information, the transmission of described wake-up feedback information can be institute State the inverse process of the pass order of wake request information and described wake-up instruction.Further, described wake up feedback information Transmission can also be what the corresponding background server of described peer-to-peer network 4 redefined according to the work occupancy of now each node Optimal transmission paths.For example, when sending described wake-up instruction to described smart machine 6, the described optimal transmission paths of employing Arrive destination router 5 for node 43 to node 44 again；And work as described smart machine 6 and complete cutting from holding state to wake-up states After changing, due to determining that described optimal transmission paths had pass by a period of time, each node in described peer-to-peer network 4 apart from last time Work occupancy may have occurred and that change, then can be according to the work occupancy of each node in presently described peer-to-peer network 4 Latest development redefine described optimal transmission paths so that described wake-up feedback information can be sent in the very first time At described main control end 2, be conducive to user that the instant on of described smart machine is experienced.

Further, the described feedback information that wakes up can also include waking up the information of failure, to point out described in user Smart machine 6 fails wake-up.

In another preferably application scenarios, described main control end 2 itself is not directly accessed described peer-to-peer network 4, and It is that transfer based on router 3 is communicated with described peer-to-peer network 4 by wireless interconnection technology, for example, described Remote Wake Up system System 1 can also include router 3, for receiving the wake request information that described main control end 2 sends, and to the transmission of described main control end Wake up feedback information.Preferably, described wireless interconnection technology can be realized based on wifi, wlan etc., and those skilled in the art can Dissolve more embodiments to become according to actual needs, this has no effect on the technology contents of the present invention.

It will be appreciated by those skilled in the art that in order to make it easy to understand, not by institute in the schematic diagram of remote wakening system 1 shown in Fig. 5 State destination router 5, described router 3 is included in the covering scope of described peer-to-peer network 4.But in actual applications, described mesh Mark router 5, described router 3 or even described main control end 2 or described smart machine 6 could act as described peer-to-peer network 4 One node, one of node including as optimal transmission paths while the service enjoying described peer-to-peer network 4, improves institute State the data-handling efficiency of peer-to-peer network 4.

One of ordinary skill in the art will appreciate that all or part of step in the various methods of above-described embodiment is can Completed with the hardware instructing correlation by program, this program can be stored in, in computer-readable recording medium, to store Medium may include that rom, ram, disk or CD etc..

Although present disclosure is as above, the present invention is not limited to this.Any those skilled in the art, without departing from this In the spirit and scope of invention, all can make various changes or modifications, therefore protection scope of the present invention should be with claim institute The scope limiting is defined.

Claims (15)

1. a kind of remote wake-up method of smart machine is it is characterised in that comprise the steps:

Receive the wake request information that main control device sends, described wake request information includes the unique mark of described smart machine Data；

Determine that the optimal transmission paths transmitting data in peer-to-peer network to described smart machine, described main control device and intelligence set For in described peer-to-peer network；

Sent to described smart machine based on described optimal transmission paths and wake up instruction, described wake-up instruction is used for so that described intelligence Wake-up states can be switched to from holding state by equipment.

2. remote wake-up method according to claim 1 is it is characterised in that also comprise the steps:

Send to described main control device and wake up feedback information, described wake-up feedback information includes the wake-up knot of described smart machine Really.

3. remote wake-up method according to claim 1 is it is characterised in that described optimal transmission paths are included to target road The preferred transmission path being carried out data transmission by device, described destination router is located in described peer-to-peer network and is set with described intelligence For coupling, described destination router is also coupled with other smart machines one or more in overlay area.

4. remote wake-up method according to claim 3 is it is characterised in that described preferred transmission path is based on following steps Determine:

The described destination router that unique identification data determination based on described smart machine is coupled with described smart machine phase；

Based on the work occupancy of each node in described peer-to-peer network, determine described preferred transmission path.

5. the remote wake-up method according to claim 3 or 4 it is characterised in that described based on described optimal transmission paths Send to described smart machine and wake up instruction, comprise the steps:

Send described wake-up based on described preferred transmission path to described destination router to instruct, and by described destination router warp Instruction is waken up to the transmission of described smart machine is described from LAN.

6. remote wake-up method according to any one of claim 1 to 4 is it is characterised in that described unique identification data It is the network site address generation based on described smart machine.

7. a kind of remote wake-up method of smart machine is it is characterised in that include:

Main control device sends wake request information to peer-to-peer network, and described wake request information includes the unique of described smart machine Mark data, described main control device and smart machine are located in described peer-to-peer network；

Described peer-to-peer network determines the optimal transmission paths transmitting data to described smart machine, and is based on described optimal transmission road Radially described smart machine sends and wakes up instruction；

Described smart machine is based on described wake-up instruction and switches to wake-up states from holding state.

8. remote wake-up method according to claim 7 is it is characterised in that described smart machine is based on described wake-up instruction Switch to wake-up states from holding state, comprise the steps:

The monitoring module of described smart machine receives the described master waking up instruction, instructing to described smart machine based on described wake-up Control unit sends interrupt signal, to control described main control unit to switch to wake-up states from holding state.

9. a kind of remote awakening device of smart machine is it is characterised in that include:

Receiver module, for receiving the wake request information of main control device transmission, described wake request information includes described intelligence The unique identification data of equipment；

Determining module, for determining the optimal transmission paths transmitting data in peer-to-peer network to described smart machine, described master Control equipment and smart machine are located in described peer-to-peer network；

First sending module, wakes up instruction, described wake-up for sending to described smart machine based on described optimal transmission paths Instruct and be used for so that described smart machine switches to wake-up states from holding state.

10. remote awakening device according to claim 9 is it is characterised in that also include:

Second sending module, wakes up feedback information for sending to described main control device, and described wake-up feedback information includes described The wake-up result of smart machine.

11. remote awakening devices according to claim 9 are it is characterised in that described optimal transmission paths are included to target The preferred transmission path that router carries out data transmission, described destination router be located at described peer-to-peer network in and with described intelligence Equipment couples, and described destination router is also coupled with other smart machines one or more in overlay area.

12. remote awakening devices according to claim 11 are it is characterised in that described determining module is included for determining State the preferred path determining module of preferred transmission path, described preferred path determining module includes:

First determination sub-module, is determined for the unique identification data based on described smart machine and is coupled with described smart machine phase Described destination router；

Second determination sub-module, for the work occupancy based on each node in described peer-to-peer network, determines and described preferably transmits Path.

13. remote awakening devices according to claim 11 or 12 are it is characterised in that described first sending module includes:

Sending submodule, instructs for sending described wake-up based on described preferred transmission path to described destination router, and by Described destination router wakes up instruction via LAN to the transmission of described smart machine is described.

14. remote awakening devices according to any one of claim 9 to 12 are it is characterised in that described unique mark number According to be based on described smart machine network site address generate.

A kind of 15. remote wakening systems of smart machine are it is characterised in that include:

Main control end, for sending wake request information to peer-to-peer network, described wake request information includes described smart machine Unique identification data, described main control end and smart machine are located in described peer-to-peer network；

Described peer-to-peer network, for determining the optimal transmission paths transmitting data to described smart machine, and is based on described optimum Transmission path sends to described smart machine and wakes up instruction；And

Described smart machine, for switching to wake-up states based on described wake-up instruction from holding state.