WO2016169468A1 - 利用移动终端提高蓝牙防丢器精确定位及报警的方法 - Google Patents
利用移动终端提高蓝牙防丢器精确定位及报警的方法 Download PDFInfo
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- WO2016169468A1 WO2016169468A1 PCT/CN2016/079663 CN2016079663W WO2016169468A1 WO 2016169468 A1 WO2016169468 A1 WO 2016169468A1 CN 2016079663 W CN2016079663 W CN 2016079663W WO 2016169468 A1 WO2016169468 A1 WO 2016169468A1
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- G—PHYSICS
- G08—SIGNALLING
- G08B—SIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
- G08B21/00—Alarms responsive to a single specified undesired or abnormal condition and not otherwise provided for
- G08B21/18—Status alarms
- G08B21/24—Reminder alarms, e.g. anti-loss alarms
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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
- H04W4/02—Services making use of location information
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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
- H04W4/02—Services making use of location information
- H04W4/029—Location-based management or tracking services
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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
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W88/00—Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
- H04W88/02—Terminal devices
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- the present invention relates to the field of mobile communication technologies, and in particular, to a method for implementing an item location search.
- Mobile terminals are widely used in various fields as communication devices, including mobile phones, tablet computers, and the like. With the rapid development of network and integrated circuit technology, mobile terminals have already had powerful processing capabilities, are becoming intelligent, and are changing from simple call tools to an integrated information processing platform, which also adds a wider range to mobile terminals. Expansion capacity.
- Inter-pulse for example, the signal value received in the first 1 second is -65%, and it may become -80% in the next second. It is difficult to calculate the fixed value. Therefore, the ordinary Bluetooth anti-lost device is not very good. Adapt to different indoor and outdoor living environments.
- the invention provides a method for improving the positioning and alarm of the Bluetooth anti-lost device by using the cooperation of the mobile terminal.
- a method for improving accurate positioning and alarm of a Bluetooth anti-lost device by using a mobile terminal comprising:
- Step 1 The mobile terminal searches for the Bluetooth anti-lost device, and the connection with the Bluetooth anti-lost device is successfully bound;
- Step 2 The Bluetooth anti-lost device reports a signal to the mobile terminal within a preset time interval
- Step 3 After receiving the signal, the mobile terminal analyzes the strength of the signal reported by the Bluetooth anti-lost device to make a judgment;
- Step 4 Set a fixed signal value on the mobile terminal as an alarm reference value.
- the mobile terminal selects at least two consecutively reported signal values of the Bluetooth anti-lost device to exceed the alarm reference value, the mobile terminal will promptly send the device to the device. Turn on the alarm command;
- Step 5 Simultaneously alert the mobile terminal and the Bluetooth anti-lost device that the mobile terminal and the Bluetooth anti-lost device exceed the safety distance.
- the mobile terminal selects the three consecutive signal values reported by the Bluetooth anti-lost device as a comparison, and if the three signal values exceed the alarm reference value, an open alarm command is issued.
- the alarm reference value is set to adjust the distance adjustment of the alarm distance by using a scale.
- the scale includes an adjustable distance scale and a signal value scale disposed on the mobile terminal device, and the scale of the distance adjustment scale is set to be from 0% to 100% from left to right, the signal value scale The scale is set to be -50% to -100% from left to right, and the scales of the adjustable distance scale and the signal value scale are set to correspond to each other from left to right.
- the mobile terminal when the mobile terminal selects that the continuously reported signal value of the Bluetooth anti-lost device does not exceed the alarm reference value, the mobile terminal clears the recalculation.
- the near end of the adjustable distance scale on the mobile terminal device is set to the indoor mode, and the far end is set to the outdoor mode; wherein 0-50% is set to the indoor mode, and 50-100% is set to the outdoor mode.
- the preset time in the step 2 is reported once every second.
- the method for improving the precise positioning and alarm of the Bluetooth anti-lost device by using the mobile terminal according to the present invention can more accurately realize the positioning and alarm function of the Bluetooth anti-lost device and the mobile terminal, and avoid false alarms due to frequent floating of the Bluetooth signal or
- the phenomenon of underreporting, and the use of dual scales to correspond to each other can better adapt to the influence of various indoor and outdoor entertainment venues on the strength of Bluetooth signals, and better realize the Bluetooth anti-lost function of items.
- FIG. 1 is a schematic diagram of a connection relationship between a mobile terminal and a Bluetooth anti-lost device according to the present invention.
- FIG. 2 is a schematic diagram of a scale set on a mobile terminal.
- Fig. 3 is a schematic view showing a scale provided on the mobile terminal 20% in the selection room.
- FIG. 4 is a schematic diagram of a scale provided on a mobile terminal when the room is 50% selected.
- Fig. 5 is a schematic view showing a scale provided on the mobile terminal when 70% is selected in the selection room.
- Fig. 6 is a schematic view showing a scale provided on the mobile terminal when the room is 100% selected.
- a method for improving the precise positioning and alarm of the Bluetooth anti-lost device by using the mobile terminal includes the following steps:
- the Bluetooth anti-lost device reports a signal to the mobile phone every second, and the mobile phone receives the signal.
- the signal strength value reported by the software analysis device built in the mobile terminal APP is judged; wherein, the mobile phone APP will report the signal reported by the Bluetooth anti-lost device three times, taking FIG. 2 as an example, the APP in the mobile terminal
- the adjustable distance scale percentage icon on the software is dragged to 50%. In fact, the signal strength of the corresponding signal value scale is -75%. If the mobile terminal APP analyzes the signal reported by the Bluetooth anti-lost device three times in succession.
- the value exceeds -75% it will be quickly set to the Bluetooth anti-lost device.
- the standby alarm command is issued, and the mobile phone and the Bluetooth anti-lost device will simultaneously alarm, prompting the user that the mobile phone and the Bluetooth anti-lost device have exceeded the safety distance.
- the mobile APP software deliberately sets the value of three consecutive signals to respond, because the Bluetooth characteristic signal value fluctuates greatly, generally jumping between 10-20 signal values, such as the first 1 The second is -65%. It is possible that the next second becomes -80%. It is difficult to calculate a fixed value. After several experiments, it is necessary to take three consecutive signal values as reference values. Taking Figure 2 as an example, when the percentage of the adjustable distance scale on the mobile APP software is 50%, the signal value scale of the corresponding Bluetooth anti-lost device is -75%, and the signal reported by the Bluetooth anti-lost device is The value must be more than -75% for three consecutive times to trigger an alarm. If there is one less than -75%, the software will clear the recalculation.
- the scale and far-reaching adjustment function can be applied to different indoor and outdoor life.
- the environment wherein the alarm reference value is set to adjust the distance adjustment of the alarm distance by using a scale, wherein 0-50% of the adjustable distance scale is set to the indoor mode, and 50-100% is set to the outdoor mode.
- the scale includes an adjustable distance scale and a signal value scale disposed on the mobile terminal device, the scale of the distance adjustment scale is set from a minimum of 0% to a maximum of 100%, and the scale of the signal value scale is set to a minimum value 50% to the maximum 100%, the scale of the adjustable distance scale and the signal value scale is set from the minimum to the maximum to correspond to each other.
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- Computer Networks & Wireless Communication (AREA)
- Signal Processing (AREA)
- Business, Economics & Management (AREA)
- Emergency Management (AREA)
- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Telephone Function (AREA)
- Emergency Alarm Devices (AREA)
- Mobile Radio Communication Systems (AREA)
- Alarm Systems (AREA)
Abstract
本发明涉及一种利用移动终端提高蓝牙防丢器精确定位及报警的方法,包括步骤1:移动终端搜索蓝牙防丢器并且与蓝牙防丢器进行连接绑定成功;2:蓝牙防丢器每秒钟向移动终端上报一次信号;步骤3:移动终端接收到信号后,分析蓝牙防丢器上报来的信号强弱数值做出判断;步骤4:在移动终端上设置固定的信号数值为报警参考值,当移动终端选取蓝牙防丢器的连续上报的两次以上的信号值均超出该报警参考值时,移动终端会迅速向设备发出开启警报指令;步骤5:在移动终端和蓝牙防丢器上同时报警提示移动终端与蓝牙防丢器超出安全距离。采用本发明可以更加精准地实现蓝牙防丢器与移动终端的定位及报警功能,避免由于蓝牙信号的频繁浮动发生误报或者漏报现象,可以更好地适应各种室内、户外等人多娱乐场所对蓝牙信号强弱的影响,更好地实现物品的蓝牙防丢功能。
Description
本发明涉及移动通信技术领域,特别涉及一种实现物品定位寻找的方法。
移动终端作为通讯设备以广泛地应用于各个领域,它包括手机、平板电脑等。随着网络和集成电路技术的飞速发展,移动终端已经拥有了强大的处理能力,走向智能化,并正在从简单的通话工具变为一个综合信息处理平台,这也给移动终端增加了更加宽广的发展空间。
而随身物品丢失是人们日常生活不可避免的话题,并且丢失物品后的寻找极为困难,有鉴于此,现有技术中人们利用蓝牙防丢器来实现物品的防丢功能。常见的做法是将蓝牙防丢器安装于各种物品上,将手机与蓝牙防丢器配对绑定,当物品离开设定范围后,用户手机便会发出报警提示以提醒用户。这种方式一定程度上,起到了物品防丢效果。然而,因用户所处环境不同,比如室内、户外人多娱乐场所都会影响蓝牙信号强弱;并且,因蓝牙设备的技术特性是其信号值浮动很大,一般都会在10-20个信号值之间跳动,比如前1秒钟接收到的信号值是-65%,有可能下一秒变成-80%,很难计算其固定值,因此,采用普通的蓝牙防丢器并不能很好地适应室内户外不同生活环境。
发明内容
本发明提供一种利用移动终端配合来提高蓝牙防丢器实现更加精确定位及报警的方法。
本发明的技术方案如下:
一种利用移动终端提高蓝牙防丢器精确定位及报警的方法,其特征在于,包括:
步骤1:移动终端搜索蓝牙防丢器,并且与蓝牙防丢器进行连接绑定成功;
步骤2:蓝牙防丢器在预设的时间间隔内向移动终端上报一次信号;
步骤3:移动终端接收到信号后,分析蓝牙防丢器上报来的信号强弱数值做出判断;
步骤4:在移动终端上设置固定的信号数值为报警参考值,当移动终端选取蓝牙防丢器的连续上报的至少两次的信号值均超出该报警参考值时,移动终端会迅速向设备发出开启警报指令;
步骤5:在移动终端和蓝牙防丢器上同时报警提示移动终端与蓝牙防丢器超出安全距离。
优选地,在所述步骤4中,移动终端选取蓝牙防丢器的连续上报的三次信号值作为对比,若三次信号值都超过报警参考值时,发出开启警报指令。
优选地,在所述步骤4中,所述报警参考值的设定是采用比例尺的方式调节实现报警距离的远近调节。
优选地,所述比例尺包括设置在移动终端设备上的可调节距离比例尺和信号数值比例尺,所述距离调节比例尺的刻度设置为从左到右为最小0%至最大100%,所述信号数值比例尺的刻度设置为从左到右为-50%至-100%,所述可调节距离比例尺和信号数值比例尺的刻度从左到右设置为相互对应。
优选地,所述步骤4中,当移动终端选取蓝牙防丢器的连续上报的信号值中有一次未超过报警参考值时,移动终端会清零重新计算。
优选地,所述移动终端设备上的可调节距离比例尺中近端设为室内模式,远端设为室外模式;其中0-50%设为室内模式,50-100%设为室外模式。
优选地,所述步骤2中预设的时间为每秒钟上报一次。
本发明的优点如下:
采用本发明所述的利用移动终端提高蓝牙防丢器精确定位及报警的方法,可以更加精准地实现蓝牙防丢器与移动终端的定位及报警功能,避免由于蓝牙信号的频繁浮动发生误报或者漏报现象,并且由于采用双比例尺进行相互对应的模式,可以更好地适应各种室内、户外等人多娱乐场所对蓝牙信号强弱的影响,更好地实现物品的蓝牙防丢功能。
图1是本发明所述的移动终端与蓝牙防丢器的连接关系示意图。
图2是移动终端上所设置的比例尺的示意图。
图3是移动终端上所设置的比例尺在选择室内20%时的示意图。
图4是移动终端上所设置的比例尺在选择室内50%时的示意图。
图5是移动终端上所设置的比例尺在选择室内70%时的示意图。
图6是移动终端上所设置的比例尺在选择室内100%时的示意图。
下面结合说明书附图1-6对本发明的技术方案进行详细说明。
如图1-6所示,一种利用移动终端提高蓝牙防丢器精确定位及报警的方法,包括以下步骤:
1、当移动终端(手机)中的控制软件APP打开,并开启手机蓝牙功能与蓝牙防丢器设备连接成功后,蓝牙防丢器设备每秒钟会向手机上报一次信号,手机接收到信号后由手机端APP内置的软件分析设备上报来的信号强弱数值做出判断;其中,手机APP会以蓝牙防丢器设备上报三次的信号为准,以图2为例,将手机端中的APP软件上的可调节距离比例尺百分比图标拖至50%的时候,其实这时对应的信号数值比例尺的信号强弱值为-75%,如果手机端APP连续三次分析蓝牙防丢器设备上报来的信号值都超出了-75%,则会迅速向蓝牙防丢器设
备发出开启警报指令,这时手机与蓝牙防丢器设备会同时报警,提示用户手机与蓝牙防丢器设备已超出安全距离。
2、为减少误报几率,手机APP软件特意设定提取连续三次信号数值才会做出响应,因为蓝牙特性信号值浮动很大,一般都在10-20个信号值之间跳动,比如前1秒钟是-65%有可能下一秒变成-80%,很难计算固定值,经多次实验研究后需要采取连续三次信号值为参考值。以图2为例,手机APP软件上的可调节距离比例尺的百分比为50%时,其对应的蓝牙防丢器设备的信号数值比例尺为-75%,这时蓝牙防丢器设备上报来的信号数值必须是连续三次都超过-75%以上才会触发报警,假如有一次低于-75%软件会清零重新计算。
3、如图3至6所示,因用户所处环境不同,比如室内、户外人多娱乐场所都会影响蓝牙信号强弱,通过多次调试研究开发出以比例尺远近调节功能可适用室内室外不同生活环境,其中所述报警参考值设定采用比例尺的方式调节实现报警距离的远近调节,所述可调节距离比例尺中的0-50%设为室内模式,50-100%设为室外模式。所述比例尺包括设置在移动终端设备上的可调节距离比例尺和信号数值比例尺,所述距离调节比例尺的刻度设置为从最小0%至最大100%,所述信号数值比例尺的刻度设置为从最小值50%至最大值100%,所述可调节距离比例尺和信号数值比例尺的刻度从最小至最大设置为相互对应。
Claims (8)
- 一种利用移动终端提高蓝牙防丢器精确定位及报警的方法,其特征在于,包括:步骤1:移动终端搜索蓝牙防丢器,并且与蓝牙防丢器进行连接绑定成功;步骤2:蓝牙防丢器在预设的时间间隔内向移动终端上报一次信号;步骤3:移动终端接收到信号后,分析蓝牙防丢器上报来的信号强弱数值做出判断;步骤4:在移动终端上设置固定的信号数值为报警参考值,当移动终端选取蓝牙防丢器的连续上报的至少两次的信号值均超出该报警参考值时,移动终端会迅速向设备发出开启警报指令;步骤5:在移动终端和/或蓝牙防丢器上报警提示移动终端与蓝牙防丢器超出安全距离。
- 根据权利要求1所述的利用移动终端提高蓝牙防丢器精确定位及报警的方法,其特征在于,在所述步骤4中,移动终端选取蓝牙防丢器的连续上报的三次信号值作为对比,若三次信号值都超过报警参考值时,发出开启警报指令。
- 根据权利要求1所述的利用移动终端提高蓝牙防丢器精确定位及报警的方法,其特征在于,在所述步骤4中,所述报警参考值的设定是采用比例尺的方式调节实现报警距离的远近调节。
- 根据权利要求3所述的利用移动终端提高蓝牙防丢器精确定位及报警的方法,其特征在于,所述比例尺包括设置在移动终端设备上的可调节距离比例尺和信号数值比例尺,所述距离调节比例尺的刻度设置为从左到右为最小0%至最大100%,所述信号数值比例尺的刻度设置为从左到右为-50%至-100%,所述可调节距离比例尺和信号数值比例尺的刻度从左到右设置为相互对应。
- 根据权利要求1或2所述的利用移动终端提高蓝牙防丢器精确定位及报警的方法,其特征在于,所述步骤4中,当移动终端选取蓝牙防丢器的连续上报的信号值中有一次未超过报警参考值时,移动终端会清零重新计算。
- 根据权利要求3所述的利用移动终端提高蓝牙防丢器精确定位及报警的方法,其特征在于,所述移动终端设备上的可调节距离比例尺中近端设为室内模式,远端设为室外模式。
- 根据权利要求6所述的利用移动终端提高蓝牙防丢器精确定位及报警的方法,其特征在于,可调节距离比例尺中的0-50%设为室内模式,50-100%设为室外模式。
- 根据权利要求1所述的利用移动终端提高蓝牙防丢器精确定位及报警的方法,其特征在于,所述步骤2中预设的时间为每秒钟上报一次。
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US11735949B2 (en) | 2014-11-18 | 2023-08-22 | Li Zhijian | Sheath for convenient charging |
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