WO2015149338A1 - 应用于电子烟的信息交互方法及系统 - Google Patents
应用于电子烟的信息交互方法及系统 Download PDFInfo
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- WO2015149338A1 WO2015149338A1 PCT/CN2014/074768 CN2014074768W WO2015149338A1 WO 2015149338 A1 WO2015149338 A1 WO 2015149338A1 CN 2014074768 W CN2014074768 W CN 2014074768W WO 2015149338 A1 WO2015149338 A1 WO 2015149338A1
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- information
- electronic cigarette
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- radar probe
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/20—Services signaling; Auxiliary data signalling, i.e. transmitting data via a non-traffic channel
- H04W4/21—Services signaling; Auxiliary data signalling, i.e. transmitting data via a non-traffic channel for social networking applications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/80—Services using short range communication, e.g. near-field communication [NFC], radio-frequency identification [RFID] or low energy communication
Definitions
- the present invention relates to the field of electronic products, and in particular, to an information interaction method and system for application to an electronic cigarette.
- the electronic cigarette includes a battery rod and an atomizer, each atomizer having at least one flavor type of smoke oil.
- electronic cigarettes do not have the function of communicating with each other. E-cigarettes cannot identify e-cigarettes with the same flavor of smoke oil, and it is difficult for users to find smokers with the same tastes for face-to-face communication. The user experience is poor. Moreover, since the electronic cigarettes do not have the function of communicating with each other, the electronic cigarette users having the same taste of the smoke cannot share the information of the electronic cigarette.
- the present invention provides an information interaction method and system for electronic cigarettes.
- the technical solution adopted by the present invention is to provide an information exchange method for applying electronic cigarettes to electronic cigarettes, and at least two electronic cigarettes for transmitting information by ultrasonic signals perform information interaction in a preset distance region;
- the method includes the following steps:
- At least one electronic cigarette sends request information carrying electronic cigarette information to other at least one electronic cigarette in the area;
- the pointing information for indicating the direction of the electronic cigarette that issued the reply information is generated according to the reply information.
- the electronic cigarette that issues the request information is oriented and generates pointing information.
- the electronic cigarette information includes a taste code for indicating the taste of the tobacco oil
- the step S3 includes: the electronic cigarette that sends the request information compares the taste code in the reply information with a preset taste code, and the taste code in the reply information is the same as the preset taste code, and the recognition is successful. After the identification is successful, the electronic cigarette that sends the reply message is oriented and generates pointing information.
- the step S3 includes: the electronic cigarette compares the taste code received in the request information with a preset taste code, and the taste code in the request information is the same as the preset taste code, and the recognition is successful, and After the identification is successful, a reply message carrying the electronic cigarette information is issued.
- the two ends of the electronic cigarette are respectively provided with a first radar probe and a second radar probe, and in step S3, the generating, according to the reply information, generating a direction for indicating the direction of the electronic cigarette that issues the reply information
- the pointing information is specifically:
- the second detection of the radar probes respectively located at the two ends of the electronic cigarette receives the sequence of another reply message sent by the same electronic cigarette, and generates second pointing information.
- the electronic cigarette information further includes an ID code of the electronic cigarette
- the two reply information at the time of the first detection and the second detection have the same ID code.
- the electronic cigarette includes a first radar probe, a second radar probe, a third radar probe, a fourth radar probe, and a gyroscope.
- the generating according to the reply information is used to indicate the issuance.
- the direction information of the direction of the electronic cigarette of the reply information is specifically:
- the step S3 further includes: sending, by the at least one electronic cigarette that receives and successfully identifying the reply information, the borrowed tobacco oil information carrying the electronic cigarette information to the electronic cigarette that sends the reply information;
- the electronic cigarette that sends the reply information successfully identifies the oily information and queries its own amount of smoke oil, and sends response information carrying the electronic cigarette information to the electronic cigarette that issues the borrowed tobacco oil information according to the amount of the smoked oil.
- the invention provides a An information interaction method applied to an electronic cigarette, wherein at least two electronic cigarettes for transmitting information by using an ultrasonic signal perform information interaction in an area of a preset distance;
- the method includes the following steps:
- At least one electronic cigarette in the area sends request information carrying electronic cigarette information to one or more electronic cigarettes in the area;
- the method also includes the following steps:
- the at least one electronic cigarette receiving the request information identifies the request information, and sends the reply information carrying the electronic cigarette information to the electronic cigarette transmitting the request information or sends the reply information carrying the electronic cigarette information to all other electronic cigarettes in the area. ;
- the at least one electronic cigarette that receives the reply information identifies the reply information, generates the pointing information according to the reply information, and/or at least one electronic cigarette that receives the request information, identifies the request information, and generates the pointing information according to the request information.
- the present invention also provides an electronic cigarette information interaction system, comprising at least two electronic cigarettes, wherein the at least two electronic cigarettes perform information interaction in an area of a preset distance by using an ultrasonic signal, and each of the electronic cigarettes includes An atomizer for atomizing the liquid smoke and a control module for controlling the atomization of the atomizer, the electronic cigarette further comprising:
- a transmitting/receiving module for receiving request information and reply information sent by other electronic cigarettes and transmitting request information and reply information to other electronic cigarettes;
- a positioning module for determining a direction of the electronic cigarette that issues the request information and the reply information
- a prompting module for generating a pointing direction to prompt the direction of the electronic cigarette that emits the ultrasonic signal
- the transmitting/receiving module and the prompting module are respectively connected to the control module, and the positioning module is respectively connected to the control module and the transmitting/receiving module;
- the transmitting/receiving module will receive the sending of the interaction information to the control module, and the positioning module sends the determined direction information to the control module;
- the control module is further configured to identify the interaction information and, after successfully identifying the interaction information, control the indication direction of the prompting module according to the direction information, and send the request information and the reply information to the transmitting/receiving module.
- a memory for setting and saving request information and reply information is also included.
- the receiving/transmitting module includes a first radar probe, a second radar probe, and a radar signal transceiving unit for transmitting and receiving signals through the first radar probe and the second radar probe, and the radar signal transceiving unit respectively Connecting the first radar probe, the second radar probe, the control module, and the positioning module;
- the positioning module generates the direction information by detecting a sequence in which the first radar probe and the second radar probe receive the interaction information.
- the method further includes a gyroscope, the transmitting/receiving module comprising a first radar probe, a second radar probe, a third radar probe, a fourth radar probe, and for passing the first radar probe, the second radar probe, a radar signal transceiver unit for transmitting and receiving request information and reply information of the third radar probe and the fourth radar probe, wherein the radar signal transceiver unit and the first radar probe, the second radar probe, and the third radar probe respectively
- the fourth radar probe, the control module, and the positioning module are connected, and the gyroscope is connected to the positioning module and the control module;
- the positioning module generates a location by detecting the sequence of the request information and the reply information by the first radar probe, the second radar probe, the third radar probe, and the fourth radar probe, and combining the measurement results of the gyroscope Direction information.
- a trigger module for enabling the interaction and orientation function is further included, and the departure module is connected to the control module.
- the implementation of the present invention has the following beneficial effects: since at least two electronic cigarettes transmitting information by ultrasonic signals perform information interaction in a predetermined distance region, the same type of electronic cigarettes can be identified, and the same type of electrons can be The orientation of the smoke increases the interaction and communication between users who like to smoke the same type of electronic cigarette, which can improve the user experience.
- FIG. 1 is a schematic block diagram of an electronic cigarette information interaction system in a preferred embodiment of the present invention
- FIG. 2 is a schematic block diagram of an electronic cigarette applied to an electronic cigarette information interaction system in a first embodiment of the present invention
- FIG. 3 is a schematic block diagram of an electronic cigarette applied to an electronic cigarette information interaction system in a second embodiment of the present invention
- FIG. 4 is a circuit schematic diagram of an electronic cigarette applied to an electronic cigarette information interaction system in a second embodiment of the present invention
- FIG. 5 is a circuit schematic diagram of an electronic cigarette applied to an electronic cigarette information interaction system in a third embodiment of the present invention.
- FIG. 6 is a flow chart showing an information interaction method applied to an electronic cigarette according to an embodiment of the present invention.
- FIG. 7 is a flow chart showing an information interaction method applied to an electronic cigarette according to another embodiment of the present invention.
- Figure 8 is a schematic view showing the first detection when the electronic cigarette is oriented in the second embodiment of the present invention.
- Fig. 9 is a schematic view showing the second detection when the electronic cigarette is oriented in the second embodiment of the present invention.
- the present invention includes a plurality of electronic cigarettes, wherein the plurality of electronic cigarettes use at least two electronic cigarettes transmitting information by ultrasonic signals to perform information interaction in a predetermined distance region, thereby realizing sensing the same around the electronic cigarette.
- a variety of electronic cigarettes and the same type of electronic cigarettes are oriented so that users who use the same kind of electronic cigarettes can face the smokers, or ask for smokers who smoke the same kind of electronic cigarettes, such as tobacco oil.
- Fig. 2 is a block diagram showing the principle of the electronic cigarette in the first embodiment of the present invention.
- the electronic cigarette includes a control module 10, an atomizer 20, a prompting module 40, a power module 50, a transmitting/receiving module 60, and a positioning module 70.
- the power module 50 is connected to the control module 10, the atomizer 20, the prompting module 40, the transmitting/receiving module 60, and the positioning module 70 for power supply.
- the control module 10 is also connected to the atomizer 20, the prompting module 40, the transmitting/receiving module 60, and the positioning module 70, respectively.
- the atomizer 20 is used to atomize the smoke liquid.
- Transmit/receive module 60 is used Receiving interactive information sent by other electronic cigarettes, and transmitting interactive information to other electronic cigarettes, the interactive information being information encoded or encrypted, which may include request information and reply information.
- the transmitting/receiving module 60 communicates information with other electronic cigarettes by ultrasonic waves.
- the positioning module 70 is connected to the transmitting/receiving module 60 for detecting the direction of the electronic cigarette that sends the interactive information, and generates the direction information to be sent to the control module 10.
- the electronic cigarette may generate a smoking signal through an air flow sensor connected to the control module 10 or generate a smoking signal through a button connected to the control module 10.
- the control module 10 is configured to control the power module 50 to supply power to the atomizer 20 according to the smoking signal control module 10 to achieve the purpose of controlling the atomizer 20 to atomize the smoke liquid.
- the control module 10 is further configured to send the interaction information to the other electronic cigarettes through the transmitting/receiving module 60, and to identify the interaction information received by the transmitting/receiving module 60, to determine whether the electronic cigarettes that send the interactive information belong to the same brand or the same taste.
- Electronic cigarette When the control module 10 determines that the electronic cigarette that sends the interactive information is the same taste or the same brand as the electronic cigarette, the control information prompting module 40 generates a prompt signal according to the direction information to prompt the user to issue the direction of the electronic cigarette of the interactive information.
- the electronic cigarette further includes a memory 80 and a trigger module 90.
- the memory 80 and the trigger module 90 are connected to the control module 10, respectively.
- the memory 80 is used to preset and save interactive information.
- the trigger module 90 can be a trigger switch. When the trigger switch is turned off, the electronic cigarette does not have an interactive function as a normal electronic cigarette. When the trigger switch is pressed, the electronic cigarette turns on the interaction and orientation function.
- the triggering module 90 sends a trigger signal to the control module 10. After receiving the trigger signal, the control module 10 calls the interaction information pre-stored in the memory 80 and transmits it through the transmitting/receiving module 60.
- the transmitting/receiving module 60 When the interaction information sent by the other electronic cigarettes is received, the interaction information is compared with the interaction information in the memory 80. When the interaction information is the same as the interaction information in the memory 80, the control module 10 identifies the success, indicating that the same is received. Interactive information from brands or e-cigarettes of the same taste. After the control module 10 successfully identifies the received interaction information, the prompting module 40 prompts the direction according to the direction information sent by the positioning module 70.
- the transmitting/receiving module 60 includes a first radar probe T1, a second radar probe T2, and a radar signal transceiving unit L1 for transmitting and receiving interactive information through the first radar probe T1 and the second radar probe T2.
- the first radar probe T1 and the second radar probe T2 are respectively connected to the radar signal transceiving unit L1, and the radar signal transceiving unit L1 is connected with the pin 10 and the pin 11 of the single chip U1, and the pin 10 is used for transmitting a signal to the radar signal.
- the transceiver unit is configured to receive a signal of the radar signal transceiver unit.
- the positioning module 70 is connected to the radar signal transceiver unit L1 to detect the sequence in which the radar signal transceiver unit L1 receives the interaction information from the first radar probe T1 and the second radar probe T2, that is, the same electronic cigarette is received. The order of the interaction information is sent.
- the pin 12 of the control module 10 is configured to receive the direction information indicating the sequence, and the control module 10 controls one of the first LED D1 and the second LED D2 according to the sequence.
- the first LED D1 emits light
- the second radar probe T2 is received first
- the second LED D2 emits light
- the first LED D1 and the second LED Diode D2 alternately emits light.
- the first radar probe T1 and the first light-emitting diode D1 are disposed adjacent to one end of the electronic cigarette
- the second radar probe T2 and the second light-emitting diode D2 are disposed adjacent to the other end of the electronic cigarette.
- the radar signal transceiving unit L1 has an amplification and a modulation and demodulation function.
- Each of the interactive information carries electronic cigarette information
- the electronic cigarette information includes a taste code indicating the taste of the smoked oil.
- the taste is coded as A.
- the line connecting the first radar probe T1 and the second radar probe T2 is the X-axis, and the coordinate line is established by taking the vertical line of the line as the Y-axis.
- the electronic cigarette 100 is placed horizontally and the trigger module 10 is pressed to cause the control module 10 to transmit the request information with the taste code A through the transmitting/receiving module 60, when the other electronic cigarettes 200 receive and identify the request information.
- the control module 10 of the electronic cigarette controls the prompt according to the detection result generated by the positioning module 70.
- the first light emitting diode D1 of the module 40 emits light or the second light emitting diode D2 emits light. If the first radar probe T1 receives the reply information first, the first LED D1 emits light, and if the second radar probe T2 receives the reply information first, the second LED D2 emits light. In this embodiment, the first LED D1 emits light, indicating that the user who sent the reply message is in the first quadrant or the second quadrant.
- the electronic cigarette can be rotated at a certain angle on a horizontal surface, such as 90 degrees, and then positioned again.
- the first radar probe T1 first receives the reply information, and the first light emitting diode D1 emits light. Therefore, the electronic cigarette 200 is located in the first quadrant or the fourth quadrant.
- the direction of the electronic cigarette 200 that sends the reply information can be detected more accurately. It can be understood that, in order to make the direction further accurate, it is also possible to rotate the electronic cigarette by a certain angle, for example, 45 degrees, and the same method is used to further narrow the area where the electronic cigarette 200 is located.
- each electronic device is also incorporated in the electronic cigarette information.
- the memory 80 can also set and store the borrowed tobacco oil information carrying the electronic cigarette information and the response information carrying the electronic cigarette information in response to the borrowed tobacco oil information.
- the borrowing oil information is added to the request code C of the borrowing oil, so the borrowing oil information is ABC.
- the response information may be added with a response code D, and the response information is ABD.
- the electronic cigarette to be oriented at this time is on the vertical line connecting the request information and the reply information.
- the electronic cigarette is rotated 90 degrees in the horizontal plane, and the electronic cigarette to be detected is combined with the first radar probe T1 and the second radar.
- One of the probes T2 is closest to the distance, and the direction of the electronic cigarette to be detected can be determined only according to the illumination of the first LED D1 and the second LED D2.
- the transmitting/receiving module 60 includes the first The radar probe T1 and the second radar probe T2, the third radar probe T3, and the fourth radar probe T4, and the first radar probe T1 and the second radar probe T2, the third radar probe T3, and the fourth radar probe T4 transmit and receive interactive information.
- the prompting module 40 includes a first light emitting diode D1, a second light emitting diode D2, a third light emitting diode D3, and a fourth light emitting diode D4.
- the first LED D1, the second LED D2, the third LED D3, and the fourth LED D4 are respectively connected to the pin 4, the pin 5, the pin 6 and the pin 7 of the single chip U1 to receive the pin respectively. 4. Voltage signals for pin 5, pin 6, and pin 7.
- the positioning module 70 detects the sequence in which the four radar probes receive the interactive information, and combines the gyroscope to calculate the direction information of the electronic cigarette that sends the interactive information.
- the single chip U1 controls one of the first LED D1, the second LED D2, the third LED D3, and the fourth LED D4 according to the direction information to indicate the direction of the electronic cigarette that sends the interactive information.
- the interaction information is request information or reply information.
- the gyroscope is disposed in the middle of the electronic cigarette, and the four radar probes are evenly distributed along the axial direction of the electronic cigarette.
- FIG. 5 is a flow chart showing an information exchange method of an electronic cigarette applied to an electronic cigarette according to an embodiment of the present invention.
- the electronic cigarette in the embodiment is applied to the information exchange method of the electronic cigarette, and the information is exchanged in the area of the preset distance by the at least two electronic cigarettes transmitting the information by the ultrasonic signal; the method includes the following steps:
- the at least one electronic cigarette sends request information carrying the electronic cigarette information to the other at least one electronic cigarette in the area.
- the electronic cigarette that issues the request information receives and successfully identifies the reply information, and generates pointing information for indicating the direction of the electronic cigarette that issued the reply information based on the reply information.
- the electronic cigarette information may include: a taste code for indicating the taste of the smoke oil, the taste code being previously encoded and stored in the memory 80 in the electronic cigarette. Therefore, in step S1, the control module 10 of the electronic cigarette calls the electronic cigarette information having the taste code from the memory 80 and transmits it through the transmitting/receiving module 60.
- step S2 the electronic cigarette receiving and successfully identifying the request information comprises: comparing, by the electronic cigarette, the taste code in the received request information with a preset taste code, and the taste code in the request information is compared with the preset taste code.
- the recognition is successful Since the electronic cigarette having the same taste in the electronic cigarette produced by the same factory has a specific taste code, it is necessary to pre-set and store the taste code in the memory 80 before the request information having the taste code can be transmitted, and the taste can be recognized. Encoded reply message.
- step S3 the electronic cigarette that sends the request information receives and successfully identifies the reply information of the same electronic cigarette: the electronic cigarette receiving the request information compares the taste code in the reply information with the preset taste encoding information, and the reply The taste code in the message is successfully identified when it is the same as the preset taste code.
- step S3 the pointing information for indicating the direction of the electronic cigarette for issuing the reply information according to the reply information is specifically:
- the second detection of the first radar probe T1 and the second radar probe T2 located at the two ends of the electronic cigarette respectively receives the order of another reply message sent by the same electronic cigarette, and Generating second pointing information;
- S12 Determine the direction of the electronic cigarette that sends the reply information according to the results of the first detection and the second detection.
- the ID code in the received reply information is recorded at the time of the first detection, and the ID code is identified in the second detection. To ensure that the two detected reply messages have the same ID code.
- the electronic cigarette can be slowly rotated in the horizontal plane.
- the rotation is stopped, indicating that the first radar probe T1 and the second radar probe T2 are received.
- the time to request and reply to a message is almost the same. Therefore, the electronic cigarette to be oriented at this time is on the vertical line connecting the first radar probe T1 and the second radar probe T2.
- the electronic cigarette is rotated 90 degrees in the horizontal plane, and the electronic cigarette to be detected is closest to one of the first radar probe T1 and the second radar probe T2, and only needs to be illuminated according to the first LED D1 and the second LED D2. The situation can determine the direction of the electronic cigarette to be detected.
- the pointing information for indicating the direction of the electronic cigarette for issuing the reply information according to the reply information is specifically: detecting the first radar probe T1 and the second radar probe T2
- the third radar probe T3 and the fourth radar probe T4 receive the sequence of the reply information sent by the same electronic cigarette, and then combine the gyroscope to calculate the direction of the electronic cigarette that returns the information and generate the pointing information.
- step S2 after the electronic cigarette receives and successfully identifies the request information of the same electronic cigarette, the electronic cigarette that issues the request information can also be directly directed.
- the orientation method can employ one of the two orientation methods described above.
- the step S3 further includes: transmitting, by the at least one electronic cigarette that receives and successfully identifying the reply information, the information of the borrowed tobacco oil carrying the electronic cigarette information to the electronic cigarette that sends the reply information;
- the user After the electronic cigarette that sends the reply information successfully identifies the information of the borrowed tobacco oil, the user queries the amount of the smoke oil, and determines whether to use the smoke oil to give other people according to the amount of the smoke oil. When it is decided to lend the cigarette oil to others, the response message carrying the electronic cigarette information is sent to the electronic cigarette that issues the information of the borrowed tobacco oil.
- the method comprises the following steps:
- the at least one electronic cigarette in the area sends the request information carrying the electronic cigarette information to one or more electronic cigarettes in the area;
- the method also includes the following steps:
- the at least one electronic cigarette receiving the request information identifies the request information, and sends the reply information carrying the electronic cigarette information to the electronic cigarette transmitting the request information or sends the reply information carrying the electronic cigarette information to all other electronic cigarettes in the area; In this step, a plurality of electronic cigarettes receive the request information, but there may be a case where the electronic cigarette only receives the request information and does not send the reply information.
- At least one electronic cigarette that receives the reply information identifies the reply information, and generates direction information for indicating the direction of the electronic cigarette that issued the reply information according to the reply information, and/or
- the at least one electronic cigarette that receives the request information identifies the request information and generates direction pointing information for indicating the electronic cigarette that issued the request information according to the request information.
- the electronic cigarette that receives the request information may point to other electronic cigarettes, or the electronic cigarette that receives the reply information may point to the electronic cigarette that sends the reply information, or may simultaneously Pointing makes the interaction method more flexible.
- the method for identifying the request information or the reply information is the same as the method in the foregoing embodiment, and the pointing method may also be one of the two orientation methods in the foregoing embodiment.
- the invention can realize the same type of electronic cigarette around the electronic cigarette and orient the same kind of electronic cigarette, so that the user who uses the same kind of electronic cigarette can face the smoke to the friend, or draw the same type of electronic cigarette.
- Smokers ask for help, such as borrowing smoke oil.
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Abstract
本发明提供了一种应用于电子烟的信息交互方法及系统,通过本发明实施例的应用于电子烟的信息交互方法利用通过超声波信号传输信息的至少两个电子烟在预设距离的区域内进行信息交互,实现感测电子烟周围的同种类的电子烟并对同种类的电子烟进行定向,以便于使用同种电子烟的用户能够面对面的以烟会友。本发明具有增强用户体验的有益效果。
Description
本发明涉及电子产品领域,尤其涉及一种对 应用于电子烟的信息交互方法及系统 。
电子烟包括电池杆和雾化器,每种雾化器具有至少一种口味类型的烟油。现有技术中,电子烟没有相互沟通的功能。电子烟无法对周围具有相同口味的烟油的电子烟进行识别,用户很难找到具有相同口味爱好的烟友来进行面对面地交流,
用户体验较差。且由于电子烟没有相互沟通的功能,具有 相同口味烟油的电子烟 用户之间不能共享电子烟的信息。
因此,现有技术存在缺陷,需要改进。
针对现有技术中的缺陷,本发明提供了一种 应用于电子烟的信息交互方法及系统 。
本发明解决技术问题采用的技术方案是:提供一种电子烟应用于电子烟的信息交互方法,用于通过超声波信号传输信息的至少两个电子烟在预设距离的区域内进行信息交互;所述方法包括以下步骤:
S1 :至少一个电子烟向所述区域内的其它至少一个电子烟发送携带有电子烟信息的请求信息;
S2 :电子烟接收并成功识别所述请求信息后,发出携带有电子烟信息的回复信息;
S3
:发出请求信息的电子烟接收并成功所述回复信息后,根据所述回复信息产生用于指示发出所述回复信息的电子烟的方向的指向信息。
优选地,在所述步骤S2中:至少一个电子烟接收并成功识别所述请求信息后对发出请求信息的电子烟进行定向并产生指向信息。
优选地,所述电子烟信息包括用于指示烟油口味的口味编码;
所述步骤S3包括:发出请求信息的电子烟将所述回复信息中的口味编码与预设的口味编码进行比较,所述回复信息中的口味编码与预设的口味编码相同时识别成功,在识别成功后对发出回复信息的电子烟进行定向并产生指向信息。
优选地,所述步骤S3包括:电子烟将接收到请求信息中的口味编码与预设的口味编码进行比较,所述请求信息中的口味编码与预设的口味编码相同时识别成功,并在识别成功后发出携带有电子烟信息的回复信息。
优选地,所述电子烟的两端分别设置有第一雷达探头和第二雷达探头,在步骤S3中,所述根据所述回复信息产生用于指示发出所述回复信息的电子烟的方向的指向信息具体为:
S11
:将电子烟水平放置,第一次检测分别位于所述电子烟两端的雷达探头接收到同一电子烟发出的一次回复信息的先后顺序,并产生第一指向信息;
将电子烟在水平面上旋转90度后,第二次检测分别位于所述电子烟两端的雷达探头接收到同一电子烟发出的另一次回复信息的先后顺序,并产生第二指向信息。
优选地,所述电子烟信息还包括电子烟的ID编码;
所述第一次检测和第二检测时的两次回复信息具有相同的ID编码。
优选地,所述电子烟包括有第一雷达探头、第二雷达探头、第三雷达探头、第四雷达探头以及一陀螺仪,在步骤S3中,所述根据所述回复信息产生用于指示发出所述回复信息的电子烟的方向的指向信息具体为:
检测所述第一雷达探头、第二雷达探头、第三雷达探头、第四雷达探头接收到同一电子烟发出的回复信息的先后顺序,再结合所述陀螺仪计算出发出回复信息的电子烟的方向,并产生指向信息。
优选地,所述步骤S3还包括:至少一个接收并成功识别回复信息的电子烟向发出回复信息的电子烟发送携带有电子烟信息的借烟油信息;
发出回复信息的电子烟成功识别所述借油信息后查询自身的烟油量,并根据所述烟油量发送携带有电子烟信息的响应信息给发出所述借烟油信息的电子烟。
本发明提供了一种
应用于电子烟的信息交互方法,用于通过超声波信号传输信息的至少两个电子烟在预设距离的区域内进行信息交互;
所述方法包括以下步骤:
所述区域内的至少一个电子烟向所述区域内的一个或多个电子烟发送携带有电子烟信息的请求信息;
所述方法还包括以下步骤:
至少一个接收到请求信息的电子烟识别该请求信息后向发送请求信息的电子烟发送携带有电子烟信息的回复信息或向所述区域内的其它所有电子烟发送携带有电子烟信息的回复信息;
至少一个接收到回复信息的电子烟识别该回复信息后根据所述回复信息产生指向信息和/或至少一个接收到请求信息的电子烟识别该请求信息后根据所述请求信息产生指向信息。
本发明还提供了一种应用于电子烟信息交互系统,包括至少两个电子烟,所述至少两个电子烟通过超声波信号在预设距离的区域内进行信息交互,每一所述电子烟包括用于雾化烟液的雾化器以及用于控制所述雾化器雾化烟液的控制模块,所述电子烟还包括:
用于接收其它电子烟发出的请求信息和回复信息并向其它电子烟发射请求信息和回复信息的发射/接收模块;
用于判断发出请求信息和回复信息的电子烟的方向的定位模块;
用于产生指向信息以提示所述发出超声波信号的电子烟的方向的提示模块;
所述发射/接收模块和所述提示模块分别与所述控制模块连接,所述定位模块分别与所述控制模块以及所述发射/接收模块连接;
所述发射/接收模块将接收到将交互信息发送给控制模块,所述定位模块将判断出的方向信息发送给所述控制模块;
所述控制模块还用于识别交互信息并在成功识别所述交互信息后根据所述方向信息控制所述提示模块指示方向,以及用于发送请求信息和回复信息给所述发射/接收模块。
优选地,还包括用于设置并保存请求信息和回复信息的存储器。
优选地,所述接收/发射模块包括第一雷达探头、第二雷达探头以及用于通过所述第一雷达探头和第二雷达探头收发信号的雷达信号收发单元,所述雷达信号收发单元分别与所述第一雷达探头、所述第二雷达探头、所述控制模块以及所述定位模块连接;
所述定位模块通过检测所述第一雷达探头和所述第二雷达探头收到所述交互信息的先后顺序生成所述方向信息。
优选地,还包括陀螺仪,所述发射/接收模块包括第一雷达探头、第二雷达探头、第三雷达探头、第四雷达探头以及用于通过所述第一雷达探头、第二雷达探头、第三雷达探头、第四雷达探头收发请求信息和回复信息的雷达信号收发单元,所述雷达信号收发单元分别与所述第一雷达探头、所述第二雷达探头、所述第三雷达探头、所述第四雷达探头、所述控制模块以及所述定位模块连接,所述陀螺仪与所述定位模块以及所述控制模块连接;
所述定位模块通过检测所述第一雷达探头、第二雷达探头、第三雷达探头、第四雷达探头收到所述请求信息和回复信息的先后顺序并结合所述陀螺仪的测量结果生成所述方向信息。
优选地,还包括用于开启交互及定向功能的触发模块,所述出发模块与所述控制模块连接。
实施本发明具有以下有益效果:由于本发明通过超声波信号传输信息的至少两个电子烟在预设距离的区域内进行信息交互,能识别周围的同类型的电子烟,并且还能对同类型电子烟进行定向,增加了具有喜欢吸同种类型电子烟的用户之间的互动与交流,能够提高用户体验。
下面将结合附图及实施例对本发明作进一步说明,附图中:
图1是本发明一优选实施例中的应用于电子烟信息交互系统的原理框图;
图2是本发明第一实施例中的应用于电子烟信息交互系统中的电子烟的原理框图;
图3是本发明第二实施例中的应用于电子烟信息交互系统中的电子烟的原理框图;
图4是本发明第二实施例中的应用于电子烟信息交互系统中的电子烟的电路原理图;
图5是本发明第三实施例中的应用于电子烟信息交互系统中的电子烟的电路原理图;
图6是本发明一实施例中的应用于电子烟的信息交互方法的流程框图;
图7是本发明另一实施例中的应用于电子烟的信息交互方法的流程框图;
图8是本发明第二实施例中的采用电子烟定向时第一次检测的示意图;
图9是本发明第二实施例中的采用电子烟定向时第二次检测的示意图。
下面结合附图对本发明作进一步详细说明。
如图1所示,本发明包括多个电子烟,该多个电子烟利用通过超声波信号传输信息的至少两个电子烟在预设距离的区域内进行信息交互,实现感测电子烟周围的同种类的电子烟并对同种类的电子烟进行定向,以便于使用同种电子烟的用户能够面对面的以烟会友,或者向抽同种类的电子烟的烟友求助等,例如借烟油等。
图2示出了本发明第一实施例中的电子烟的原理框图。该电子烟包括控制模块10、雾化器20、提示模块40、电源模块50、发射/接收模块60、定位模块70。其中,电源模块50分别为控制模块10、雾化器20、提示模块40、发射/接收模块60、定位模块70连接以供电。控制模块10还分别与雾化器20、提示模块40、发射/接收模块60、定位模块70连接。
雾化器20用于雾化烟液。发射/接收模块60用于
接收其它电子烟发出的交互信息,并向其它电子烟发射交互信息,该交互信息为通过编码或者加密的信息,其可包括请求信息和回复信息。发射/接收模块60与其他电子烟之间通过超声波传递交互信息。定位模块70与发射/接收模块60连接,用于检测发出交互信息的电子烟的方向,并产生方向信息发送给控制模块10。
该电子烟可以是通过一与控制模块10连接的气流传感器来产生吸烟信号,或者通过一与控制模块10连接的按键来产生吸烟信号。控制模块10根据该吸烟信号控制模块10用于控制电源模块50为雾化器20供电,以达到控制雾化器20雾化烟液的目的。
控制模块10还用于通过发射/接收模块60向其它电子烟发送交互信息,以及用于识别发射/接收模块60接收到的交互信息,以判断发出交互信息的电子烟是否属于同一品牌或者同一口味的电子烟。当控制模块10判定发出交互信息的电子烟与本电子烟是同一口味或同一品牌时,根据该方向信息控制提示模块40产生提示信号,以提示用户发出该交互信息的电子烟的方向。
如图3所示,在第二实施例中,在第一实施例的基础上,该电子烟还包括一存储器80和触发模块90。该存储器80和触发模块90分别与控制模块10连接。存储器80用于预先设置并保存交互信息。该触发模块90可以为一触发开关。当该触发开关关闭时,该电子烟作为普通电子烟使用不具有交互功能。当按下该触发开关后,电子烟开启交互及定向功能。触发模块90发送一个触发信号给控制模块10,控制模块10在收到该触发信号后,调用存储器80中预先存储的交互信息,通过发射/接收模块60发射出去;或者,当发射/接收模块60接收到其他电子烟发出的交互信息时,将该交互信息与存储器80中的交互信息对比,当该交互信息与存储器80中的交互信息相同时,控制模块10识别成功,说明接收到的是同一品牌或者同一口味的电子烟发出的交互信息。当控制模块10成功识别接收到的交互信息后,根据定位模块70发送来的方向信息,控制提示模块40提示方向。
如图4为第二实施例的详细电路图,该控制模块10为单片机U1,该提示模块40包括第一发光二极管D1和第二发光二极管D2。第一发光二极管D1和第二发光二极管D2的正极分别与单片机U1的引脚4和引脚5分别连接,用于接收引脚4和引脚5的电压信号以发光,负极接地。该发射/接收模块60包括第一雷达探头T1、第二雷达探头T2以及用于通过第一雷达探头T1、第二雷达探头T2收发交互信息的雷达信号收发单元L1。该第一雷达探头T1、第二雷达探头T2分别与雷达信号收发单元L1连接,雷达信号收发单元L1与与单片机U1引脚10以及引脚11连接,该引脚10用于发送信号给雷达信号收发单元,该引脚11用于接收雷达信号收发单元的信号。该定位模块70连接在雷达信号收发单元L1上以检测该雷达信号收发单元L1收到来自第一雷达探头T1、第二雷达探头T2的交互信息的先后顺序,也即是该收到同一电子烟发出的交互信息的先后顺序,控制模块10的引脚12用于接收该表示先后顺序的方向信息,控制模块10根据该先后顺序控制第一发光二极管D1和第二发光二极管D2中的一个发光。当第一雷达探头T1先收到时,第一发光二极管D1发光;第二雷达探头T2先收到时,第二发光二极管D2发光;当同时收到时,第一发光二极管D1和第二发光二极管D2交替发光。为了方便用户观察,将第一雷达探头T1和第一发光二极管D1临近地设置于电子烟的一端,将第二雷达探头T2和第二发光二极管D2临近地设置于电子烟的另一端。该雷达信号收发单元L1具有放大以及调制解调功能。
这些交互信息中均携带有电子烟信息,该电子烟信息包括指示烟油口味的口味编码。例如,口味编码为A。如图8所示,以第一雷达探头T1和第二雷达探头T2的连线为X轴,以连线的中垂线为Y轴建立坐标系。当用户需要交互时,将电子烟100水平放置并按下触发模块10使得控制模块10通过发射/接收模块60发射有口味编码A的请求信息出去,当其他电子烟200接收并识别该请求信息中的编码A后,发射出一个具有口味编码A的回复信息,该电子烟的控制模块10收到该回复信息并成功识别其中的口味编码A后,根据定位模块70产生的检测结果,控制该提示模块40的第一发光二极管D1发光或第二发光二极管D2发光。如果第一雷达探头T1先收到该回复信息,则第一发光二极管D1发光,如果第二雷达探头T2先收到该回复信息,则第二发光二极管D2发光。在本实施例中,第一发光二极管D1发光,说明发出该回复信息的用户在第一象限或第二象限。
但是这种定向并不是很精确,如果为了更加精确,如图9所示,可以将该电子烟在水平面上旋转一定角度,如90度,再定位一次。此时还是第一雷达探头T1先接收到回复信息,第一发光二极管D1发光,因此,该电子烟200位于第一象限或第四象限。结合两次检测结果即可知道该电子烟200位于第一象限,可以较为精确地检测出发出该回复信息的电子烟200的方向。可以理解地,为了使得方向进一步精确,还可以再次旋转电子烟一定角度,例如45度,采用同样的方法来进一步缩小电子烟200位于的区域。
但是,采用多次检测方法相结合时,无法保证后面接收到的回复信息是同一电子烟200发出的,出现误差的可能性很大,因此,还在电子烟信息中编入了代表每一个电子烟的独特身份的ID编码B,也即是说,在第一次定向时,电子烟100的控制模块10只需要识别口味编码A并将ID编码B记录下来,第二次定向时,通过识别口味编码A和ID编码B来确保两次定向是对同一电子烟200进行的。
当然,存储器80中还可以设置并存储携带有电子烟信息的借烟油信息以及用于响应借烟油信息的携带有电子烟信息的响应信息等。借烟油信息中加入借油的请求编码C,因此该借烟油信息为ABC。响应信息可以中加入响应编码D,响应信息为ABD。通过借烟油信息以向周围具有相同口味烟油的用户借点烟油。
可以理解地,还可以采用另一方法来定向。将电子烟在水平面内慢慢旋转,当第一发光二极管D1和第二发光二极管D2交替发光时,说明该第一雷达探头T1、第二雷达探头T2收到请求信息和回复信息的时间几乎相同,因此此时待定向的电子烟在请求信息和回复信息连线的中垂线上,此时将电子烟在水平面内旋转90度,待检测的电子烟与第一雷达探头T1、第二雷达探头T2中的一个距离最近,此时只需根据第一发光二极管D1和第二发光二极管D2发光情况即可判断出待检测的电子烟的方向。
如图4所示,在该实施例中,与图3所示实施例的区别在于,增加了一个陀螺仪,该陀螺仪分别与单片机U1以及定位模块70连接;发射/接收模块60包括第一雷达探头T1和第二雷达探头T2、第三雷达探头T3以及第四雷达探头T4以及通过第一雷达探头T1和第二雷达探头T2、第三雷达探头T3以及第四雷达探头T4来收发交互信息的雷达信号收发单元L1。提示模块40包括第一发光二极管D1、第二发光二极管D2、第三发光二极管D3以及第四发光二极管D4。第一发光二极管D1、第二发光二极管D2、第三发光二极管D3以及第四发光二极管D4分别与单片机U1的引脚4、引脚5、引脚6以及引脚7连接,以分别接收引脚4、引脚5、引脚6以及引脚7的电压信号。定位模块70检测该四个雷达探头收到交互信息的先后顺序,并结合陀螺仪计算出发出交互信息的电子烟的方向信息。单片机U1根据该方向信息控制该第一发光二极管D1、第二发光二极管D2、第三发光二极管D3以及第四发光二极管D4中的一个发光,以指示发出该交互信息的电子烟的方向。该交互信息为请求信息或回复信息。该陀螺仪设置在电子烟的中部,该四个雷达探头沿着电子烟的轴向,均匀分布。
图5示出了本发明一实施例中的电子烟应用于电子烟的信息交互方法的流程图。
在本实施例中的电子烟应用于电子烟的信息交互方法,用于通过超声波信号传输信息的至少两个电子烟在预设距离的区域内进行信息交互;所述方法包括以下步骤:
S1 :至少一个电子烟向区域内的其它至少一个电子烟发送携带有电子烟信息的请求信息。
S2 :电子烟接收并成功识别请求信息后,发出携带有电子烟信息的回复信息。
S3
:发出请求信息的电子烟接收并成功识别回复信息,根据所述回复信息产生用于指示发出所述回复信息的电子烟的方向的指向信息。
在本实施例中,电子烟信息可包括:用于指示烟油口味的口味编码,该口味编码是预先经过编码并保存在电子烟中的存储器80中。因此在步骤S1中,电子烟的控制模块10从存储器80中调用具有口味编码的电子烟信息,并通过发射/接收模块60发射出去。
步骤S2中,电子烟接收并成功识别请求信息包括:电子烟将接收到的请求信息中的口味编码与预设的口味编码进行比较,请求信息中的口味编码与所述预设的口味编码相同时识别成功。由于同一工厂生产的电子烟中具有相同口味的电子烟具有特定的口味编码,因此必须是在存储器80预先设置并存储口味编码后,才能发射具有该口味编码的请求信息,并才能识别具有该口味编码的回复信息。
步骤S3中,发出请求信息的电子烟接收并成功识别同类电子烟的回复信息包括:接收到请求信息的电子烟将所述回复信息中的口味编码与预设口味编码信息进行比较,所述回复信息中的口味编码与预设的口味编码相同时识别成功。
对应图3所示实施例中的电子烟,在步骤S3中,根据回复信息产生用于指示发出回复信息的电子烟的方向的指向信息具体为:
S11
:将电子烟水平放置,第一次检测分别位于述电子烟两端的第一雷达探头T1和第二雷达探头T2接收到同一电子烟发出的一次回复信息的先后顺序,并产生第一指向信息;
将电子烟在水平面上旋转90度后,第二次检测分别位于所述电子烟两端的第一雷达探头T1和第二雷达探头T2接收到同一电子烟发出的另一次回复信息的先后顺序,并产生第二指向信息;
S12 :根据所述第一次检测和第二次检测的结果判定发出回复信息的电子烟的方向。
为了保证两次检测的回复信息为同一电子烟发出的,除了要识别口味编码还要在第一次检测时记录下收到的回复信息中的ID编码,并在第二检测时识别该ID编码,以保证两次检测到的回复信息具有相同的ID编码。
可以理解地,还可以将电子烟在水平面内慢慢旋转,当第一发光二极管D1和第二发光二极管D2交替发光时,停止旋转,说明该第一雷达探头T1、第二雷达探头T2收到请求信息和回复信息的时间几乎相同。因此,此时待定向的电子烟在第一雷达探头T1和第二雷达探头T2连线的中垂线上。将电子烟在水平面内旋转90度,待检测的电子烟与第一雷达探头T1、第二雷达探头T2中的一个距离最近,此时只需根据第一发光二极管D1和第二发光二极管D2发光情况即可判断出待检测的电子烟的方向。
对应图4所示实施例中的电子烟,在步骤S3中,根据回复信息产生用于指示发出回复信息的电子烟的方向的指向信息具体为:检测第一雷达探头T1和第二雷达探头T2、第三雷达探头T3以及第四雷达探头T4接收到同一电子烟发出的回复信息的先后顺序,再结合陀螺仪计算出回复信息的电子烟的方向并产生指向信息。
可以理解地,在步骤S2中,电子烟接收并成功识别同类电子烟的请求信息后,还可以直接对发出请求信息的电子烟进行定向。定向方法可以采用上述两种定向方法中的一种。
当然,在定向的基础上,持有相同的口味的电子烟的用户就具有了见面交流的可能,因此,还可以进行借烟油等社交行为。在步骤S3中还包括:至少一个接收并成功识别回复信息的电子烟向发出回复信息的电子烟发送携带有电子烟信息的借烟油信息;
发出回复信息的电子烟成功识别所述借烟油信息后,用户查询自身的烟油量,并根据烟油量确定要不要借烟油给他人。当决定要借烟油给他人时,发送携带有电子烟信息的响应信息给发出借烟油信息的电子烟。
如图6所示,在本发明电子烟应用于电子烟的信息交互方法的另一实施例中,该方法包括以下步骤:
区域内的至少一个电子烟向区域内的一个或多个电子烟发送携带有电子烟信息的请求信息;
该方法还包括以下步骤:
至少一个接收到请求信息的电子烟识别该请求信息后向发送请求信息的电子烟发送携带有电子烟信息的回复信息或向区域内的其它所有电子烟发送携带有电子烟信息的回复信息;在该步骤中,有多个电子烟收到了请求信息,但是其中,可能存在电子烟只接收请求信息不发送回复信息的情况。
至少一个接收到回复信息的电子烟识别该回复信息后根据该回复信息并产生用于指示发出该回复信息的电子烟的方向的指向信息,和/或
至少一个接收到请求信息的电子烟识别该请求信息后根据该请求信息产生用于指示发出该请求信息的电子烟的方向指向信息。在该步骤中,既可以是接收到请求信息的电子烟对其他电子烟进行指向,也可以是收到回复信息的电子烟对发出该回复信息的电子烟进行指向,还可以多个电子烟同时指向,使得交互方法更加灵活。该实施例中,识别请求信息或回复信息的方法与上述实施例中的方法相同,并且指向的方法也可为上述实施例中两种定向方法中的一种。
本发明可以实现感测电子烟周围的同种类的电子烟并对同种类的电子烟进行定向,以便于使用同种电子烟的用户能够面对面的以烟会友,或者向抽同种类的电子烟的烟友求助等,例如借烟油等。
应当理解的是,对本领域普通技术人员来说,可以根据上述说明加以改进或变换,而所有这些改进和变换都应属于本发明所附权利要求的保护范围。
Claims (14)
1
、一种应用于电子烟的信息交互方法,其特征在于,用于通过超声波信号传输信息的至少两个电子烟在预设距离的区域内进行信息交互;所述方法包括以下步骤:
S1 :至少一个电子烟向所述区域内的其它至少一个电子烟发送携带有电子烟信息的请求信息;
S2 :电子烟接收并成功识别所述请求信息后,发出携带有电子烟信息的回复信息;
S3
:发出请求信息的电子烟接收并成功识别回复信息,根据所述回复信息产生用于指示发出所述回复信息的电子烟的方向的指向信息。
2
、根据权利要求1所述的应用于电子烟的信息交互方法,其特征在于,在所述步骤S2中:至少一个电子烟接收并成功识别所述请求信息后对发出请求信息的电子烟进行定向并产生指向信息。
3
、根据权利要求1所述的应用于电子烟的信息交互方法,其特征在于,所述电子烟信息包括用于指示烟油口味的口味编码;
所述步骤S2包括:发出请求信息的电子烟将所述回复信息中的口味编码与预设的口味编码进行比较,所述回复信息中的口味编码与预设的口味编码相同时识别成功,在识别成功后对发出回复信息的电子烟进行定向并产生指向信息。
4
、根据权利要求3所述的应用于电子烟的信息交互方法,其特征在于,所述步骤S2包括:电子烟将接收到请求信息中的口味编码与预设的口味编码进行比较,所述请求信息中的口味编码与预设的口味编码相同时识别成功,并在识别成功后发出携带有电子烟信息的回复信息。
5
、根据权利要求4所述的应用于电子烟的信息交互方法,其特征在于,所述电子烟的两端分别设置有第一雷达探头(T1)和第二雷达探头(T2),在步骤S3中,根据所述回复信息产生用于指示发出所述回复信息的电子烟的方向的指向信息具体为:
S11
:将电子烟水平放置,第一次检测分别位于所述电子烟两端的雷达探头接收到同一电子烟发出的一次回复信息的先后顺序,并产生第一指向信息;
将电子烟在水平面上旋转90度后,第二次检测分别位于所述电子烟两端的雷达探头接收到同一电子烟发出的另一次回复信息的先后顺序,并产生第二指向信息。
6
、根据权利要求5所述的应用于电子烟的信息交互方法,其特征在于,所述电子烟信息还包括电子烟的ID编码;
所述第一次检测和第二检测时的两次回复信息具有相同的ID编码。
7
、根据权利要求4所述的应用于电子烟的信息交互方法,其特征在于,所述电子烟包括有第一雷达探头(T1)、第二雷达探头(T2)、第三雷达探头(T3)、第四雷达探头(T4)以及一陀螺仪,在步骤S3中,所述根据所述回复信息产生用于指示发出所述回复信息的电子烟的方向的指向信息具体为:
检测所述第一雷达探头(T1)、第二雷达探头(T2)、第三雷达探头(T3)、第四雷达探头(T4)接收到同一电子烟发出的回复信息的先后顺序,再结合所述陀螺仪计算出发出回复信息的电子烟的方向,并产生指向信息。
8
、根据权利要求1所述的应用于电子烟的信息交互方法,其特征在于,所述步骤S3还包括:至少一个接收并成功识别回复信息的电子烟向发出回复信息的电子烟发送携带有电子烟信息的借烟油信息;
发出回复信息的电子烟成功识别所述借油信息后查询自身的烟油量,并根据所述烟油量发送携带有电子烟信息的响应信息给发出所述借烟油信息的电子烟。
9 、一种
应用于电子烟的信息交互方法,其特征在于,用于通过超声波信号传输信息的至少两个电子烟在预设距离的区域内进行信息交互;
所述方法包括以下步骤:
所述区域内的至少一个电子烟向所述区域内的一个或多个电子烟发送携带有电子烟信息的请求信息;
所述方法还包括以下步骤:
至少一个接收到请求信息的电子烟识别该请求信息后向发送请求信息的电子烟发送携带有电子烟信息的回复信息或向所述区域内的其它所有电子烟发送携带有电子烟信息的回复信息;
至少一个接收到回复信息的电子烟识别该回复信息后根据所述回复信息产生指向信息和/或至少一个接收到请求信息的电子烟识别该请求信息后根据所述请求信息产生指向信息。
10
、一种应用于电子烟信息交互系统,其特征在于,包括至少两个电子烟,所述至少两个电子烟通过超声波信号在预设距离的区域内进行信息交互,每一所述电子烟包括用于雾化烟液的雾化器(20)以及用于控制所述雾化器(20)雾化烟液的控制模块(10),所述电子烟还包括:
用于接收其它电子烟发出的请求信息和回复信息并向其它电子烟发射请求信息和回复信息的发射/接收模块(60);
用于判断发出请求信息和回复信息的电子烟的方向的定位模块(70);
用于产生指向信息以提示所述发出请求信息和回复信息的电子烟的方向的提示模块(40);
所述发射/接收模块(60)和所述提示模块(40)分别与所述控制模块(10)连接,所述定位模块(70)分别与所述控制模块(10)以及所述发射/接收模块(60)连接;
所述发射/接收模块(60)将接收到将请求信息和回复信息发送给控制模块(10),所述定位模块(70)将判断出的方向信息发送给所述控制模块(10);
所述控制模块(10)还用于识别请求信息和回复信息并在成功识别所述请求信息和回复信息后根据所述方向信息控制所述提示模块(40)指示方向,以及用于发送请求信息和回复信息给所述发射/接收模块(60)。
11
、根据权利要求10所述的应用于电子烟信息交互系统,其特征在于,还包括用于设置并保存请求信息和回复信息的存储器(80)。
12
、根据权利要求10所述的应用于电子烟信息交互系统,其特征在于,所述接收/发射模块(60)包括第一雷达探头(T1)、第二雷达探头(T2)以及用于通过所述第一雷达探头(T1)和第二雷达探头(T2)收发请求信息和回复信息的雷达信号收发单元(L1),所述雷达信号收发单元(L1)分别与所述第一雷达探头(T1)、所述第二雷达探头(T2)、所述控制模块(10)以及所述定位模块(70)连接;
所述定位模块(70)通过检测所述第一雷达探头(T1)和所述第二雷达探头(T2)收到所述请求信息和回复信息的先后顺序生成所述方向信息。
13
、根据权利要求10所述的应用于电子烟信息交互系统,其特征在于,还包括陀螺仪,所述发射/接收模块(60)包括第一雷达探头(T1)、第二雷达探头(T2)、第三雷达探头(T3)、第四雷达探头(T4)以及用于通过所述第一雷达探头(T1)、第二雷达探头(T2)、第三雷达探头(T3)、第四雷达探头(T4)收发请求信息和回复信息的雷达信号收发单元(L1),所述雷达信号收发单元(L1)分别与所述第一雷达探头(T1)、所述第二雷达探头(T2)、所述第三雷达探头(T3)、所述第四雷达探头(T4)、所述控制模块(10)以及所述定位模块(70)连接,所述陀螺仪与所述定位模块(70)以及所述控制模块(10)连接;
所述定位模块(70)通过检测所述第一雷达探头(T1)、第二雷达探头(T2)、第三雷达探头(T3)、第四雷达探头(T4)收到所述请求信息和回复信息的先后顺序并结合所述陀螺仪的测量结果生成所述方向信息。
14
、根据权利要求10所述的应用于电子烟信息交互系统,其特征在于,还包括用于开启交互及定向功能的触发模块(90),所述出发模块(90)与所述控制模块(10)连接。
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