CN105183136A - Electronic equipment and information processing method - Google Patents
Electronic equipment and information processing method Download PDFInfo
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- CN105183136A CN105183136A CN201510564018.9A CN201510564018A CN105183136A CN 105183136 A CN105183136 A CN 105183136A CN 201510564018 A CN201510564018 A CN 201510564018A CN 105183136 A CN105183136 A CN 105183136A
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Abstract
The invention discloses electronic equipment and an information processing method. The electronic equipment comprises a main processing component, a sensing component, a short-distance wireless communication component and a cooperative processing component. The main processing component is used for integrally monitoring the electronic equipment. The sensing component is used for obtaining first sensing data of the electronic equipment. The short-distance wireless communication component is used for performing data exchange with second electronic equipment within a preset distance range in a wireless mode. The cooperative processing component is used for managing the first sensing data from the sensing component and controlling the short-distance wireless communication component to transmit the first sensing data to the second electronic equipment, receive second sensing data from the second electronic equipment and convert the received second sensing data into data which can be used for the electronic equipment, wherein when the sensing component, the short-distance wireless communication component and the cooperative processing component are in a working state, the main processing component is a sleep state.
Description
Technical field
The present invention relates to the field of electronic information technology, more particularly, relate to data transmission and shared field between equipment.
Background technology
In recent years, along with the develop rapidly of electronic industry and the communication technology, there is intelligent terminal and greatly changed the life of people.On function uses, intelligent terminal is towards the future development of hommization more, personalization and multifunction.Along with the development of computer technology, intelligent terminal enters the pattern of " focus be put on man " from the pattern of " facility center management ".User itself has urgent hope to terminal, wish termination function more powerful, more flexibly, simpler and more direct, also in the urgent need to Intelligent Terminal.Further, how realizing effective exchanges data between terminal and terminal is also current question of common concern.
Data transmission between terminal and terminal generally needs the intervention of server.Such as, when first terminal expect with the second terminal connect and carry out data transmit time, need to set up the connection with server respectively, send data to server, then forward the data to the second terminal by server.When network condition is bad, the situation that cannot connect or time delay is long may be there is.In addition, connect and carry out the participation of the action need primary processor part (that is, CPU) of data transmission, system needs to carry out a large amount of work, and cannot enter dormancy for a long time, therefore system power dissipation is higher.
Summary of the invention
In view of above situation, expect to provide can be new electronic equipment and information processing method, it can realize and the data sharing of other equipment rooms and exchange without delay with low-power consumption.
According to an aspect of the present invention, provide a kind of electronic equipment, comprising: primary processor part, for carrying out integral monitoring to described electronic equipment; Sensing device, for obtaining the first sense data about described electronic equipment; Short-distance wireless communication device, for wirelessly carrying out exchanges data with the second electronic equipment in predetermined distance range; And coprocessor part, for managing the first sense data from described sensing device, control described short-distance wireless communication device described first sense data be sent to described second electronic equipment and receive the second sense data from described second electronic equipment, and described second sense data received is converted to the data that described electronic equipment can use, wherein when described sensing device, described short-distance wireless communication device and described coprocessor part are in running order, described primary processor part is in dormant state.
In addition, the electronic equipment according to the embodiment of the present invention may further include: memory device, for storing data; Wherein said coprocessor part is configured to the first particular data stored in described memory device be sent to described second electronic equipment for controlling described short-distance wireless communication device and receive the second particular data from described second electronic equipment further, and described second particular data received is converted to the data that described electronic equipment can use.
In addition, according in the electronic equipment of the embodiment of the present invention, described sensing device comprises positioning element, for obtaining the primary importance information about described electronic equipment, and, described first sensitive information comprises primary importance information, comprises the second place information about described second electronic equipment from the second sense data of described second electronic equipment reception.
In addition, according in the electronic equipment of the embodiment of the present invention, described sensing device also comprises inertia member, wherein said coprocessor part is configured to start described inertia member further and carries out inertial navigation to record movement locus, when can not obtain positional information with convenient current position, calculate the primary importance information of instruction current location based on initial position message and described movement locus.
In addition, according in the electronic equipment of the embodiment of the present invention, described coprocessor part, based on described primary importance information and described second place information, determines the optimization positional information about described electronic equipment.
In addition, according in the electronic equipment of the embodiment of the present invention, described sensing device comprises with at least one in lower sensor: biometric sensor, direction sensor, gravity sensor, acceleration transducer, light sensor, temperature sensor, electronic compass, range sensor, gyroscope, pressure transducer, linear acceleration sensor and rotating vector sensor.
In addition, electronic equipment according to the embodiment of the present invention may further include: safety certification device, for obtaining the list of devices that can be connected by described short-distance wireless communication device, and trusted devices is screened in described list of devices, wherein said coprocessor part controls described short-distance wireless communication device and only sends data to described trusted devices.
According to a further aspect in the invention, provide a kind of information processing method, be applied to an electronic equipment, described electronic equipment comprises: primary processor part, for carrying out integral monitoring to described electronic equipment; Sensing device; Short-distance wireless communication device, for wirelessly carrying out exchanges data with the second electronic equipment in predetermined distance range; Coprocessor part, described method comprises: by described sensing device, obtains the first sense data about described electronic equipment; By described coprocessor part, manage the first sense data from described sensing device; By described coprocessor part, control described short-distance wireless communication device described first sense data be sent to described second electronic equipment and receive the second sense data from described second electronic equipment, and described second sense data received is converted to the data that described electronic equipment can use, when described sensing device, described short-distance wireless communication device and described coprocessor part are in running order, control described primary processor part and be in dormant state.
In addition, according in the method for the embodiment of the present invention, described electronic equipment comprises further: memory device, for storing data, described method comprises further: by described coprocessor part, control described short-distance wireless communication device the first particular data stored in described memory device be sent to described second electronic equipment and receive the second particular data from described second electronic equipment, and described second particular data received is converted to the data that described electronic equipment can use.
In addition, according in the method for the embodiment of the present invention, described sensing device comprises positioning element, described acquisition comprises about the step of the first sense data of described electronic equipment the primary importance information obtained about described electronic equipment, and, described first sensitive information comprises primary importance information, comprises the second place information about described second electronic equipment from the second sense data of described second electronic equipment reception.
In addition, according in the method for the embodiment of the present invention, described sensing device also comprises inertia member, described acquisition comprises further about the step of the primary importance information of described electronic equipment: by described coprocessor part, start described inertia member and carry out inertial navigation to record movement locus, when can not obtain positional information with convenient current position, calculate the primary importance information of instruction current location based on initial position message and described movement locus.
In addition, the method according to the embodiment of the present invention may further include: by described coprocessor part, based on described primary importance information and described second place information, determines the optimization positional information about described electronic equipment.
In addition, method according to the embodiment of the present invention may further include: obtain the list of devices that can be connected by described short-distance wireless communication device, and trusted devices is screened in described list of devices, wherein by described coprocessor part, control described short-distance wireless communication device and only send data to described trusted devices.
By according to the electronic equipment of the embodiment of the present invention and information processing method, all data exchange processings are all carried out in coprocessor part, and primary processor part need not wake up, can keep dormant state always, thus the power consumption of electronic equipment is little.In addition, carried out the exchange of data by short-distance wireless communication device, the information received is all the information from other equipment of surrounding, does not have the delay of network, and therefore real-time is good.In addition, when sharing GPS position information at multiple equipment room, positioning precision can be improved.When sharing exercise data at multiple equipment room, can make user obtain quickly and easily surrounding user exercise data and not by the restriction of specific software or Web community.
Accompanying drawing explanation
Fig. 1 is the process flow diagram of the process of the information processing method illustrated according to the embodiment of the present invention; And
Fig. 2 is the functional block diagram of the configuration of the electronic equipment illustrated according to the embodiment of the present invention.
Embodiment
Below with reference to accompanying drawings of the present invention each is preferred embodiment described.There is provided the description referring to accompanying drawing, to help the understanding to the example embodiment of the present invention limited by claim and equivalent thereof.It comprises the various details helping to understand, but they can only be counted as exemplary.Therefore, those skilled in the art will recognize that, can make various changes and modifications embodiment described herein, and do not depart from the scope of the present invention and spirit.And, in order to make instructions clearly succinct, will the detailed description to well known function and structure be omitted.
First, with reference to Fig. 1, the electronic equipment according to the embodiment of the present invention is described.Such as, electronic equipment here can be the intelligent terminal such as mobile phone, panel computer.As shown in Figure 1, electronic equipment 100 comprises: primary processor part 101, sensing device 102, short-distance wireless communication device 103 and coprocessor part 104.
Primary processor part 101 is for carrying out integral monitoring to described electronic equipment.Generally speaking, primary processor part 101 is central processing unit part (CPU, CentralProcessingUnit).CPU is one piece of ultra-large integrated circuit, is arithmetic core (Core) and the control core (ControlUnit) of a computing machine.Its function data mainly in interpretive machine instruction and process computer software.
Sensing device 102 is for obtaining the first sense data about described electronic equipment 100.As hereinafter will described, sensing device 102 can include but not limited to positioning element, inertia member, biometric sensor, direction sensor, gravity sensor, acceleration transducer, light sensor, temperature sensor, electronic compass, range sensor, gyroscope, pressure transducer, linear acceleration sensor and rotating vector sensor.The first sense data about described electronic equipment 100 can be the sense data of such as GPS location data and exercise data (e.g., motion step number, motion mileage etc.) and so on.
Short-distance wireless communication device 103 is for wirelessly carrying out exchanges data with the second electronic equipment 200 in predetermined distance range.Second equipment 200 described here can be type identical with electronic equipment 100 or dissimilar equipment, and the second equipment 200 is the equipment independently worked with electronic equipment 100.Although do not describe in detail, the second equipment 200 also at least has sensing device and short-distance wireless communication device, thus can obtain in order to exchange sense data and the sense data of acquisition can be exchanged to electronic equipment 100.
Short-distance wireless communication technology includes but not limited to ZigBee, bluetooth (Bluetooth), short haul connection (NFC), infrared (IrDA) and WLAN (wireless local area network) 802.11 (Wi-Fi) etc.Such as, bluetooth devices can be adopted as short-distance wireless communication device.In this case, by Bluetooth Low Energy agreement (BLE, BluetoothLowEnergy), the sense data that bluetooth equipment information and sensing device 102 obtain is carried out dynamic broadcast.
By the fast data exchange of short-distance wireless communication device 103 between different user (that is, equipment), such as, user can obtain the exercise data ranking list of a neighbouring crowd.Like this, user can share oneself data quickly and easily, and without the need to the community that adds all kinds of healthy software oneself or by such as this form of micro-letter motion public number, as long as multiple user is in predetermined little region simultaneously.By doing like this, first, the limitation that between different software, different community, user data cannot be shared has been broken; Secondly, without the need to being connected with remote server, thus real-time is good; Finally, be the data of same zone user around due to what compare, therefore occupation type/mode of motion etc. duplicate, thus comparative sense is powerful.
Coprocessor part 104 is for managing the first sense data from described sensing device 102, control described short-distance wireless communication device 103 described first sense data be sent to described second electronic equipment 200 and receive the second sense data from described second electronic equipment 200, and described second sense data received is converted to the data that described electronic equipment 100 can use.
Such as, in specific implementation, coprocessor part 104 can be sensor hub (SensorHub).SensorHub is that one can help to obtain, whole merging treatment is from the microcontroller of the data of different sensors.Whole solution, is collect sensor as much as possible on a Hub (harmonizing processor chip) in fact, allows it to control all sensors.This technology can move apart primary processor part the control task of this kind of sensor.That is, acquisition, whole merging treatment have no longer been come by primary processor part from the task of the data of different sensors, but have been responsible for specially by SensorHub.By the control of SensorHub, each sensor can be kept to be in normally open, when namely convenient equipment is in sleep pattern, SensorHub still can collect the data message from each sensor, ensures the state of monitor user ' incessantly with this.But the electricity that SensorHub consumes completes well below primary processor part the electricity that these tasks consume, thus by using SensorHub greatly to save electric power and to promote usefulness.
Here, it is pointed out that in the present invention, when described sensing device 102, described short-distance wireless communication device 103 and described coprocessor part 104 are in running order, described primary processor part 101 is in dormant state.That is, in the present invention, all data exchange processings are all carried out in coprocessor part 104, and primary processor part 101 need not wake up, can keep dormant state always, thus the power consumption of electronic equipment is little.In addition, carried out the exchange of data by short-distance wireless communication device 103, the information received is all the information from other equipment of surrounding, does not have the delay of network, and therefore real-time is good.
Except the sense data that sensing device obtains, electronic equipment can also control short-distance wireless communication device 103 to exchange with the second electronic equipment in preset range other data self stored by coprocessor part 104 according to another embodiment of the present invention.
Specifically, electronic equipment may further include according to another embodiment of the present invention: memory device (not shown), for storing data.Wherein, described coprocessor part 104 is configured to the first particular data stored in described memory device be sent to described second electronic equipment for controlling described short-distance wireless communication device 103 and receive the second particular data from described second electronic equipment further, and described second particular data received is converted to the data that described electronic equipment can use.Such as, particular data can include but not limited to the lastest imformation of software, the discount information etc. of nearby stores.
Next, the concrete configuration when above described sensing device 102 comprises positioning element (not shown) will be described in detail.
Positioning element, for obtaining the current location information about described electronic equipment, in order to distinguish with the current location information of the second described electronic equipment, is just defined as primary importance information here below.Typically, positioning element is implemented by GPS positioning unit.
Further, in this case, described first sensitive information comprises primary importance information, comprises the second place information about described second electronic equipment from the second sense data of described second electronic equipment reception.
There is such situation: a lot of high building regions in city, due to blocking of buildings, gps satellite signal by deep fades, thus causes in some position, and equipment location is inaccurate or be difficult to location.In the present invention, due to the positional information between distinct device can be shared, therefore consider the accuracy by utilizing the positional information of distinct device to improve positional information.Certainly, here it is to be noted, due to less in the scope of two or more communication between devices by short-distance wireless communication technology, therefore utilize the positional information from other equipment to be think that other equipment in predetermined distance range are identical with the position of the machine to optimize the hypotheses of positional information, and ignore the in fact distance difference of such as several meters between the two.
Specifically, described coprocessor part 104, based on described primary importance information and described second place information, determines the optimization positional information about described electronic equipment.For the GPS information of the multiple distinct devices be externally received and the GPS information that self obtains, can composite computing further, to improve positioning precision.
Such as, the simplest optimal way is averaging primary importance information and second place information, to reduce error.Certainly, the present invention is not limited to this.Alternately, other more complicated optimized algorithms can also be selected to be optimized multiple positional information.
It is inaccurate with situation about being optimized by the locating information of multiple equipment that above situation corresponds to equipment location.In other words, in this case, electronic equipment can obtain the positional information of current location by positioning element, and electronic equipment can receive the locating information from other equipment.
But also may there is such situation: under current location, electronic equipment can not obtain the information of current location by positioning element, and electronic equipment does not receive the locating information from other equipment.In this case, if described sensing device 102 only comprises positioning element, then the locating information of current location can not be obtained.
In order to avoid this situation occurs, according to one more embodiment of the present invention, described sensing device 102 can further include inertia member (not shown), as acceleration transducer.In addition, in the electronic device, the initial position having obtained positional information is accurately prestored.After storing initial position, described coprocessor part 104 is configured to start described inertia member further and carries out inertial navigation, with the movement locus of record using described initial position as starting point, when can not obtain positional information with convenient current position, calculate the primary importance information of instruction current location based on initial position message and described movement locus.That is, when positional information can not be obtained at the local side of electronic equipment, by increasing inertia member in sensing device 102, movement locus can be utilized indirectly to calculate current location information.
Be described above the control by coprocessor part, via the different embodiments of short-distance wireless device sharing data between distinct device.In the above-described embodiment, the data of local side can be sent to the second equipment 200 by electronic equipment 100, also can receive the data sent from the second equipment 200 end, as long as electronic equipment 100 and the second equipment 200 are all in same presumptive area.But the multiple equipment satisfied condition for locus carry out the problem that unconditional exchanges data brings and are poor stability.May occur that private data that user undesirably exchanges is by situation about revealing.
Therefore, according to still another embodiment of the invention, electronic equipment 100 can further include: safety certification device (not shown), for obtaining the list of devices that can be connected by described short-distance wireless communication device, and screen trusted devices in described list of devices.Such as, automatically can obtain user list trusty from address list etc., thus safeguard trusted devices list.Or, also manually can select to allow which user visit the data of oneself or disclose oneself data by user by the mode of authentication.
In this case, described coprocessor part 104 controls described short-distance wireless communication device 103 and only sends data to described trusted devices.
The concrete configuration of the electronic equipment according to various embodiments of the invention is described hereinbefore with reference to Fig. 1.Next, with reference to Fig. 2, the information processing method according to the embodiment of the present invention is described.Described information processing method can be applied to above described electronic equipment 100.As noted before, electronic equipment comprises: primary processor part, for carrying out integral monitoring to described electronic equipment; Sensing device; Short-distance wireless communication device, for wirelessly carrying out exchanges data with the second electronic equipment in predetermined distance range; Coprocessor part.
As shown in Figure 2, described method comprises the steps.
First, in step S201, by described sensing device, obtain the first sense data about described electronic equipment.Sensing device can include but not limited to positioning element, inertia member, biometric sensor, direction sensor, gravity sensor, acceleration transducer, light sensor, temperature sensor, electronic compass, range sensor, gyroscope, pressure transducer, linear acceleration sensor and rotating vector sensor.The first sense data about described electronic equipment can be the sense data of such as GPS location data and exercise data (e.g., motion step number, motion mileage etc.) and so on.
Then, in step S202, by described coprocessor part, manage the first sense data from described sensing device.
Next, in step S203, by described coprocessor part, control described short-distance wireless communication device described first sense data be sent to described second electronic equipment and receive the second sense data from described second electronic equipment, and described second sense data received is converted to the data that described electronic equipment can use.
Short-distance wireless communication technology includes but not limited to ZigBee, bluetooth (Bluetooth), short haul connection (NFC), infrared (IrDA) and WLAN (wireless local area network) 802.11 (Wi-Fi) etc.Such as, bluetooth devices can be adopted as short-distance wireless communication device.In this case, by Bluetooth Low Energy agreement (BLE, BluetoothLowEnergy), the sense data that bluetooth equipment information and sensing device 102 obtain is carried out dynamic broadcast.
By the fast data exchange of short-distance wireless communication device between different user (that is, equipment), such as, user can obtain the exercise data ranking list of a neighbouring crowd.Like this, user can share oneself data quickly and easily, and without the need to the community that adds all kinds of healthy software oneself or by such as this form of micro-letter motion public number, as long as multiple user is in predetermined little region simultaneously.By doing like this, first, the limitation that between different software, different community, user data cannot be shared has been broken; Secondly, without the need to being connected with remote server, thus real-time is good; Finally, be the data of same zone user around due to what compare, therefore occupation type/mode of motion etc. duplicate, thus comparative sense is powerful.
Here, it is pointed out that in the present invention, when described sensing device, described short-distance wireless communication device and described coprocessor part are in running order, control described primary processor part and be in dormant state.That is, in the present invention, all data exchange processings are all carried out in coprocessor part, and primary processor part need not wake up, can keep dormant state always, thus the power consumption of electronic equipment is little.In addition, carried out the exchange of data by short-distance wireless communication device, the information received is all the information from other equipment of surrounding, does not have the delay of network, and therefore real-time is good.
Except the sense data that sensing device obtains, information processing method can also control short-distance wireless communication device to exchange with the second electronic equipment in preset range other data self stored by coprocessor part according to another embodiment of the present invention.
Specifically, according in another embodiment of the present invention, described electronic equipment comprises further: memory device, for storing data.Now, described method may further include: by described coprocessor part, control described short-distance wireless communication device the first particular data stored in described memory device be sent to described second electronic equipment and receive the second particular data from described second electronic equipment, and described second particular data received is converted to the data that described electronic equipment can use.Such as, particular data can include but not limited to the lastest imformation of software, the discount information etc. of nearby stores.
Next, by the detailed process of the information processing method of detailed description when sensing device comprises positioning element (not shown).
In this case, described acquisition comprises about the step of the first sense data of described electronic equipment the primary importance information obtained about described electronic equipment.Further, described first sensitive information comprises primary importance information, comprises the second place information about described second electronic equipment from the second sense data of described second electronic equipment reception.
There is such situation: a lot of high building regions in city, due to blocking of buildings, gps satellite signal by deep fades, thus causes in some position, and equipment location is inaccurate or be difficult to location.In the present invention, due to the positional information between distinct device can be shared, therefore consider the accuracy by utilizing the positional information of distinct device to improve positional information.Certainly, here it is to be noted, due to less in the scope of two or more communication between devices by short-distance wireless communication technology, therefore utilize the positional information from other equipment to be think that other equipment in predetermined distance range are identical with the position of the machine to optimize the hypotheses of positional information, and ignore the in fact distance difference of such as several meters between the two.
Specifically, method according to the present invention may further include: by described coprocessor part, based on described primary importance information and described second place information, determines the optimization positional information about described electronic equipment.For the GPS information of the multiple distinct devices be externally received and the GPS information that self obtains, can composite computing further, to improve positioning precision.
Such as, the simplest optimal way is averaging primary importance information and second place information, to reduce error.Certainly, the present invention is not limited to this.Alternately, other more complicated optimized algorithms can also be selected to be optimized multiple positional information.
It is inaccurate with situation about being optimized by the locating information of multiple equipment that above situation corresponds to equipment location.In other words, in this case, electronic equipment can obtain the positional information of current location by positioning element, and electronic equipment can receive the locating information from other equipment.
But also may there is such situation: under current location, electronic equipment can not obtain the information of current location by positioning element, and electronic equipment does not receive the locating information from other equipment.In this case, the locating information of current location can not be obtained by described positioning element.
In order to avoid this situation occurs, according to one more embodiment of the present invention, described sensing device also comprises inertia member.In addition, in the process, the step prestoring the initial position obtaining positional information accurately is also comprised.After this, described acquisition comprises further about the step of the primary importance information of described electronic equipment: by described coprocessor part, start described inertia member and carry out inertial navigation with the movement locus of record using described initial position as starting point, when can not obtain positional information with convenient current position, calculate the primary importance information of instruction current location based on initial position message and described movement locus.
Be described above the control by coprocessor part, via the different embodiments of short-distance wireless device sharing data between distinct device.In the above-described embodiment, the data of electronic equipment local side can be sent to the second equipment, also can receive the data sent from the second equipment end, as long as electronic equipment and the second equipment are all in same presumptive area.But the multiple equipment satisfied condition for locus carry out the problem that unconditional exchanges data brings and are poor stability.May occur that private data that user undesirably exchanges is by situation about revealing.
Therefore, according to still another embodiment of the invention, described method can further include: obtain the list of devices that can be connected by described short-distance wireless communication device, and screen trusted devices in described list of devices.Such as, automatically can obtain user list trusty from address list etc., thus safeguard trusted devices list.Or, also manually can select to allow which user visit the data of oneself or disclose oneself data by user by the mode of authentication.
In this case, by described coprocessor part, control described short-distance wireless communication device and only send data to described trusted devices.
Up to now, seen figures.1.and.2 and described electronic equipment according to the embodiment of the present invention and information processing method in detail.By according to the electronic equipment of the embodiment of the present invention and information processing method, all data exchange processings are all carried out in coprocessor part, and primary processor part need not wake up, can keep dormant state always, thus the power consumption of electronic equipment is little.In addition, carried out the exchange of data by short-distance wireless communication device, the information received is all the information from other equipment of surrounding, does not have the delay of network, and therefore real-time is good.In addition, when sharing GPS position information at multiple equipment room, positioning precision can be improved.When sharing exercise data at multiple equipment room, can make user obtain quickly and easily surrounding user exercise data and not by the restriction of specific software or Web community.
It should be noted that, in this manual, term " comprises ", " comprising " or its any other variant are intended to contain comprising of nonexcludability, thus make to comprise the process of a series of key element, method, article or equipment and not only comprise those key elements, but also comprise other key elements clearly do not listed, or also comprise by the intrinsic key element of this process, method, article or equipment.When not more restrictions, the key element limited by statement " comprising ... ", and be not precluded within process, method, article or the equipment comprising described key element and also there is other identical element.
Finally, also it should be noted that, above-mentioned a series of process not only comprises with the order described here temporally process that performs of sequence, and comprises process that is parallel or that perform respectively instead of in chronological order.
Through the above description of the embodiments, those skilled in the art can be well understood to the mode that the present invention can add required hardware platform by software and realize, and can certainly all be implemented by software.Based on such understanding, what technical scheme of the present invention contributed to background technology can embody with the form of software product in whole or in part, this computer software product can be stored in storage medium, as ROM/RAM, magnetic disc, CD etc., comprising some instructions in order to make a computer equipment (can be personal computer, server, or the network equipment etc.) perform the method described in some part of each embodiment of the present invention or embodiment.
Above to invention has been detailed introduction, applying specific case herein and setting forth principle of the present invention and embodiment, the explanation of above embodiment just understands method of the present invention and core concept thereof for helping; Meanwhile, for one of ordinary skill in the art, according to thought of the present invention, all will change in specific embodiments and applications, in sum, this description should not be construed as limitation of the present invention.
Claims (13)
1. an electronic equipment, comprising:
Primary processor part, for carrying out integral monitoring to described electronic equipment;
Sensing device, for obtaining the first sense data about described electronic equipment;
Short-distance wireless communication device, for wirelessly carrying out exchanges data with the second electronic equipment in predetermined distance range; And
Coprocessor part, for managing the first sense data from described sensing device, control described short-distance wireless communication device described first sense data be sent to described second electronic equipment and receive the second sense data from described second electronic equipment, and described second sense data received is converted to the data that described electronic equipment can use
Wherein when described sensing device, described short-distance wireless communication device and described coprocessor part are in running order, described primary processor part is in dormant state.
2. electronic equipment according to claim 1, comprises: memory device further, for storing data;
Wherein said coprocessor part is configured to the first particular data stored in described memory device be sent to described second electronic equipment for controlling described short-distance wireless communication device and receive the second particular data from described second electronic equipment further, and described second particular data received is converted to the data that described electronic equipment can use.
3. electronic equipment according to claim 1, wherein said sensing device comprises positioning element, for obtaining the primary importance information about described electronic equipment,
Further, described first sensitive information comprises primary importance information, comprises the second place information about described second electronic equipment from the second sense data of described second electronic equipment reception.
4. electronic equipment according to claim 3, wherein said sensing device also comprises inertia member,
Wherein said coprocessor part is configured to start described inertia member further and carries out inertial navigation to record movement locus, when can not obtain positional information with convenient current position, calculate the primary importance information of instruction current location based on initial position message and described movement locus.
5. electronic equipment according to claim 3, wherein said coprocessor part, based on described primary importance information and described second place information, determines the optimization positional information about described electronic equipment.
6. electronic equipment according to claim 1, described sensing device comprises with at least one in lower sensor: biometric sensor, direction sensor, gravity sensor, acceleration transducer, light sensor, temperature sensor, electronic compass, range sensor, gyroscope, pressure transducer, linear acceleration sensor and rotating vector sensor.
7. electronic equipment according to claim 1, comprises further:
Safety certification device, for obtaining the list of devices that can be connected by described short-distance wireless communication device, and screens trusted devices in described list of devices,
Wherein said coprocessor part controls described short-distance wireless communication device and only sends data to described trusted devices.
8. an information processing method, is applied to an electronic equipment, and described electronic equipment comprises: primary processor part, for carrying out integral monitoring to described electronic equipment; Sensing device; Short-distance wireless communication device, for wirelessly carrying out exchanges data with the second electronic equipment in predetermined distance range; Coprocessor part, described method comprises:
By described sensing device, obtain the first sense data about described electronic equipment;
By described coprocessor part, manage the first sense data from described sensing device;
By described coprocessor part, control described short-distance wireless communication device described first sense data be sent to described second electronic equipment and receive the second sense data from described second electronic equipment, and described second sense data received is converted to the data that described electronic equipment can use
When described sensing device, described short-distance wireless communication device and described coprocessor part are in running order, control described primary processor part and be in dormant state.
9. method according to claim 8, described electronic equipment comprises further: memory device, and for storing data, described method comprises further:
By described coprocessor part, control described short-distance wireless communication device the first particular data stored in described memory device be sent to described second electronic equipment and receive the second particular data from described second electronic equipment, and described second particular data received is converted to the data that described electronic equipment can use.
10. method according to claim 8, wherein said sensing device comprises positioning element,
Described acquisition comprises about the step of the first sense data of described electronic equipment the primary importance information obtained about described electronic equipment,
Further, described first sensitive information comprises primary importance information, comprises the second place information about described second electronic equipment from the second sense data of described second electronic equipment reception.
11. methods according to claim 10, wherein said sensing device also comprises inertia member,
Described acquisition comprises further about the step of the primary importance information of described electronic equipment: by described coprocessor part, start described inertia member and carry out inertial navigation to record movement locus, when can not obtain positional information with convenient current position, calculate the primary importance information of instruction current location based on initial position message and described movement locus.
12. methods according to claim 10, comprise further: by described coprocessor part, based on described primary importance information and described second place information, determine the optimization positional information about described electronic equipment.
13. methods according to claim 8, comprise further:
The list of devices that acquisition can be connected by described short-distance wireless communication device, and trusted devices is screened in described list of devices,
Wherein by described coprocessor part, control described short-distance wireless communication device and only send data to described trusted devices.
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