WO2017120855A1 - 一种判断运动轨迹时的数据采集方法以及遥控器 - Google Patents
一种判断运动轨迹时的数据采集方法以及遥控器 Download PDFInfo
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- WO2017120855A1 WO2017120855A1 PCT/CN2016/070957 CN2016070957W WO2017120855A1 WO 2017120855 A1 WO2017120855 A1 WO 2017120855A1 CN 2016070957 W CN2016070957 W CN 2016070957W WO 2017120855 A1 WO2017120855 A1 WO 2017120855A1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N21/00—Selective content distribution, e.g. interactive television or video on demand [VOD]
- H04N21/40—Client devices specifically adapted for the reception of or interaction with content, e.g. set-top-box [STB]; Operations thereof
- H04N21/41—Structure of client; Structure of client peripherals
- H04N21/422—Input-only peripherals, i.e. input devices connected to specially adapted client devices, e.g. global positioning system [GPS]
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- the invention belongs to the field of household appliances, and particularly relates to a data acquisition method and a remote controller when determining a motion trajectory.
- the number of invention patents applied by OPPO in 2014 was 938, while the number of invention patents of Tencent in the same period was 1,447.
- the inventions of the two companies about 80% of the total number of invention patents related to user experience and direct user operations.
- similar patent applications, including other companies based on user experience are also of a large order of magnitude, such as Huawei.
- the patent application process and the post-authorization maintenance process will generate human and financial costs: such as replying to review opinions, paying license fees, etc., for core technologies (such as CDMA underlying technology) or market identification.
- core technologies such as CDMA underlying technology
- market identification For relatively high-tech technologies (such as sliding unlocking), the related costs are negligible, and the investment in these technologies is worthwhile, but such technologies are a minority after all, and more technologies have been verified by the market. The user's pain points or itch points cannot be touched, and the patent investment in these technologies is likely to cause cost waste.
- Embodiments of the present invention provide a data collection method for determining a motion trajectory.
- the purpose is to improve the operation quality of the remote controller, reduce the requirements for the accuracy of the user operation, avoid misoperation and non-response after the operation, and at the same time facilitate the timely and effective collection of relevant technologies by the manufacturer.
- the present invention is implemented as follows: a data acquisition method for judging a motion trajectory, comprising the following steps:
- the embodiment of the invention further provides a remote controller, comprising:
- a recording unit configured to record a standard current value of the issued command, an instruction corresponding to the standard current value, and an error threshold of the standard current value preset by the manufacturer;
- the detecting unit is configured to detect the current corresponding current when the user operates the gravity sensor to issue an instruction
- a determining unit wherein the input end is respectively connected to the output end of the recording unit and the output end of the detecting unit, and is used within an error threshold of the standard current value of the current corresponding current according to the current corresponding current Determine whether there is a standard current value for issuing an instruction;
- An instruction sending unit wherein the input end is connected to the determining unit, and if the determining unit determines that there is a standard current value for issuing the command, the instruction is used to issue an instruction corresponding to the standard current value;
- the data sending unit is connected to the determining unit, and the input end thereof is connected to the output end of the determining unit, and is configured to send the technical use data to the data collecting end preset by the manufacturer when the determining result of the determining unit is negative. .
- the invention achieves the judgment of the movement track of the remote controller Reduce the operating frequency of the remote control and improve the operation quality, reduce the accuracy of the user's operation, avoid misuse and non-response after operation, and facilitate the timely and effective collection of relevant technology by the manufacturer.
- FIG. 1 is a schematic flow chart of a data collection method for determining a motion trajectory according to an embodiment of the present invention
- FIG. 2 is a schematic structural diagram of a remote controller according to an embodiment of the present invention.
- FIG. 1 is a data acquisition method for judging a motion trajectory according to an embodiment of the present invention. For the convenience of description, only parts related to the embodiment of the present invention are shown.
- step S101 The standard current value of the issued command, the command corresponding to the standard current value, and the error threshold of the standard current value preset by the manufacturer are recorded.
- User actions have horizontal movement, vertical movement, flipping, tilting, etc. These actions correspond to different instructions, and the sensor converts these actions into electrical signals to record their corresponding current values.
- the resistance value when moving horizontally at 180 degrees, the resistance value is R1, and the current emitted is A1, which also corresponds to the F command.
- the resistance value when the 90 degree is vertically moved, the resistance value is R2, and the current emitted is A2, corresponding to the E command;
- the moving angle during the process will allow an error of plus or minus 5 degrees, and the error threshold of the corresponding current value is controlled to be plus or minus 0.5A.
- step S102 when the user operates the gravity sensor to issue an instruction, the current corresponding current is detected.
- step S103 determining, according to the currently corresponding current, a standard current value for issuing an instruction within an error threshold of the standard current value of the current corresponding current.
- step S103 In order to avoid misoperation, according to step S103 In the judgment, when there is no standard current value for issuing an instruction, the operation is considered invalid. When the operation is invalid, proceed to step S105. , does not issue any instruction, and sends the technical use data to the preset data acquisition end of the manufacturer. If there is a standard current value for issuing the instruction, it is regarded as effective, and proceeds to step S104. , issuing an instruction corresponding to the standard current value.
- the technology uses data for the user to use the data of the technology, that is, the data generated when the method completes the first few steps, the data includes the number of times the user uses the technology (eg, the first time using the technology within a certain period of time) Technology); the specific time point of using the technology; the user's related operations before and after using the technology can help the technology provider to better evaluate the market value of the technology, and better improve the technical data according to the feedback.
- the invention achieves the judgment of the movement track of the remote controller Reduce the operating frequency of the remote control and improve the operation quality, reduce the accuracy of the user's operation, avoid misuse and non-response after operation, and facilitate the timely and effective collection of relevant technology by the manufacturer.
- FIG. 2 is a schematic structural diagram of a remote controller according to an embodiment of the present invention, where the remote controller includes:
- Recording unit 21 And a standard current value for issuing an instruction, an instruction corresponding to the standard current value, and an error threshold of the standard current value preset by a manufacturer.
- User actions have horizontal movement, vertical movement, flipping, tilting, etc. These actions correspond to different instructions, and the sensor converts these actions into electrical signals to record their corresponding current values.
- the resistance value when moving horizontally at 180 degrees, the resistance value is R1, and the current emitted is A1, which also corresponds to the F command.
- the resistance value when the 90 degree is vertically moved, the resistance value is R2, and the current emitted is A2, corresponding to the E command;
- the moving angle during the process will allow an error of plus or minus 5 degrees, and the error threshold of the corresponding current value is controlled to be plus or minus 0.5A.
- the detecting unit 22 is configured to detect the current corresponding current when the user operates the gravity sensor to issue an instruction.
- a judging unit 23 having an input end and an output end of the recording unit 21 and the detecting unit 22 The output terminal is connected, and is used to determine whether there is a standard current value for issuing an instruction within an error threshold of the standard current value of the current corresponding current according to the current corresponding current.
- the instruction transmitting unit 24 has an input terminal connected to the determining unit 23, if the determining unit 23 Determining, when there is a standard current value for issuing an instruction, an instruction for issuing the standard current value;
- a data transmitting unit 25 connected to the determining unit 23, the input end thereof and the determining unit 23
- the output terminal is connected to send the technical use data to the data collection end preset by the manufacturer when the determination result of the determining unit 23 is negative.
- recording unit 21 Recording a standard current value of the issued command, an instruction corresponding to the standard current value, and an error threshold of the standard current value preset by the manufacturer, when the user operates the gravity sensor to issue an instruction, the detecting unit 22 Detecting the current corresponding current; the determining unit 23 determines whether there is a standard current value for issuing the command within the error threshold of the standard current value of the current corresponding current according to the current corresponding current, and the command sending unit 24 When the judging unit 23 judges that there is a standard current value for issuing an instruction, an instruction corresponding to the standard current value is issued, and when the judging unit 23 judges that the result is NO, the data transmitting unit 25 Send technical usage data to the data acquisition terminal preset by the manufacturer.
- the invention achieves the judgment of the movement track of the remote controller Reduce the operating frequency of the remote control and improve the operation quality, reduce the accuracy of the user's operation, avoid misuse and non-response after operation, and facilitate the timely and effective collection of relevant technology by the manufacturer.
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Abstract
本发明属于家电领域,提供了一种判断运动轨迹时的数据采集方法以及遥控器,方法包括:记录发出指令的标准电流值、标准电流值所对应的指令、以及厂家预设的标准电流值的误差阈值;当用户操作重力传感器发出指令时,检测当前对应电流;根据当前对应的电流,在当前对应的电流的标准电流值的误差阈值内,判断是否存在发出指令的标准电流值;若是,发出标准电流值对应的指令;若否,不发出任何指令,并向厂家预设的数据采集端发送技术使用数据。该发明通过对遥控器运动轨迹的判断,从而做到降低遥控器的操作频率并提高操作质量,降低对用户操作的精确性的要求,避免误操作以及操作后无响应的情况,同时方便了厂家及时有效的采集相关技术的使用情况。
Description
本发明属于家电领域,尤其是涉及一种判断运动轨迹时的数据采集方法以及遥控器。
现在企业申请的专利数量越来越多,而且将专利用在市场上、产品中的情形也越来越多。
根据国家知识产权的数据库显示,OPPO公司在2014年申请的发明专利数为938个,而同期的腾讯公司的发明专利数为1447个。这两家公司的发明中,有关于用户体验和用户直接操作相关的发明专利约占总数的80%左右。当然包括其他以用户体验为主的公司的类似专利申请也是具有很大的数量级,比如小米公司等。
考虑到技术使用的同时,专利的申请过程和授权后的维护过程都会产生人力、财力上的成本:如答复审查意见、缴纳授权费等,对于核心技术(如:CDMA的底层技术)或市场认同度比较高的技术(如:滑动解锁)而言,那么相关成本就可以忽略不计,对于这些技术的投入是值得的,但这类技术毕竟是少数,更多的技术经过市场验证后,其实并不能触及用户的痛点或痒点,而对这些技术的专利投入,就容易造成成本的浪费。
所以需要有一种方法能够通过实在的数据,及时评估相关技术的市场接受度或价值,同时,为了使得本人的上一个申请《 一种判断运动轨迹的方法以及遥控器
》中的相关技术得到及时评估,特提出一种技术使用数据的采集/发送的方法。
本发明实施例提供了一种判断运动轨迹时的数据采集方法 ,
目的在于提高遥控器操作质量、降低对用户操作的精确性的要求、避免误操作以及操作后无响应的情况,同时方便了厂家及时有效的采集相关技术的使用情况。
本发明是这样实现的:一种 判断运动轨迹时的数据采集方法 ,包括以下步骤:
记录发出指令的标准电流值、所述标准电流值所对应的指令、以及厂家预设的所述标准电流值的误差阈值;
当用户操作重力传感器发出指令时,检测当前对应电流;
根据所述当前对应的电流,在当前对应的电流的所述标准电流值的误差阈值内,判断是否存在发出指令的标准电流值;
若是,发出所述标准电流值对应的指令;
若否,不发出任何指令,并向厂家预设的数据采集端发送技术使用数据。
本发明实施例还提供了一种 遥控器 ,包括:
记录单元,用于记录发出指令的标准电流值、所述标准电流值所对应的指令、以及厂家预设的所述标准电流值的误差阈值;
检测单元,当用户操作重力传感器发出指令时,用于检测当前对应电流;
判断单元,其输入端分别与所述记录单元的输出端以及所述检测单元的输出端连接,根据所述当前对应的电流,在当前对应的电流的所述标准电流值的误差阈值内,用于判断是否存在发出指令的标准电流值;
指令发送单元,其输入端与所述判断单元相连接,如果判断单元判断存在发出指令的标准电流值时,用于发出所述标准电流值对应的指令;
数据发送单元,与所述判断单元连接,其输入端与所述判断单元的输出端连接,用于在所述判断单元的判断结果为否时,向厂家预设的数据采集端发送技术使用数据。
该发明通过对遥控器运动轨迹的判断,从而做到
降低遥控器的操作频率并提高操作质量,降低对用户操作的精确性的要求,避免误操作以及操作后无响应的情况,同时方便了厂家及时有效的采集相关技术的使用情况。
图 1 是本发明实施例提供的一种 判断运动轨迹时的数据采集方法的流程示意图 ;
图 2 是本发明实施例提供的遥控器的结构示意图。
为了使本发明的目的、技术方案及优点更加清楚明白,以下结合附图及实施例,对本发明进行进一步详细说明。应当理解,此处所描述的具体实施例仅仅用以解释本发明,并不用于限定本发明。
图 1 是发明实施例提供的一种 判断运动轨迹时的数据采集方法
的流程示意图,为了便于说明,只示出了与本发明实施例相关的部分。
在步骤 S101
中,记录发出指令的标准电流值、所述标准电流值所对应的指令、以及厂家预设的所述标准电流值的误差阈值。
用户动作有水平移动、垂直移动、翻转、倾斜等,这些动作对应不一样的指令,传感器会将这些动作转换成电信号,从而记录下其对应的电流值。
如180度水平移动时,电阻值为R1,所发出的电流为A1,也对应F指令;同时90度竖直移动时,电阻值为R2,所发出的电流为A2,对应E指令;在移动过程中移动角度会允许正负5度的误差,其所对应的电流值的误差阀值控制在正负0.5A。
在步骤 S102 中,当用户操作重力传感器发出指令时,检测当前对应电流。
在步骤 S103
中,根据所述当前对应的电流,在当前对应的电流的所述标准电流值的误差阈值内,判断是否存在发出指令的标准电流值。
为了避免误操作 ,根据步骤 S103
中的判断,当不存在发出指令的标准电流值时,视为操作无效。当操作无效时,进入步骤 S105
,不发出任何指令,并向厂家预设的数据采集端发送技术使用数据,如果存在发出指令的标准电流值时,视为操作有效,进入步骤 S104
,发出所述标准电流值对应的指令。
所述技术使用数据为用户使用该技术的数据,即所述方法走完前几个步骤时产生的数据,所述数据包括用户使用该技术的次数(如在一定时间内是第几次使用该技术);使用该技术的具体时间点;使用该技术前后用户的相关操作等有助于技术提供方更好的评价技术的市场价值,并根据所述反馈更好的改进技术的数据。
该发明通过对遥控器运动轨迹的判断,从而做到
降低遥控器的操作频率并提高操作质量,降低对用户操作的精确性的要求,避免误操作以及操作后无响应的情况,同时方便了厂家及时有效的采集相关技术的使用情况。
图 2 是本发明实施例提供的一种 遥控器 的结构示意图,该遥控器包括:
记录单元 21
,用于记录发出指令的标准电流值、所述标准电流值所对应的指令、以及厂家预设的所述标准电流值的误差阈值。
用户动作有水平移动、垂直移动、翻转、倾斜等,这些动作对应不一样的指令,传感器会将这些动作转换成电信号,从而记录下其对应的电流值。
如180度水平移动时,电阻值为R1,所发出的电流为A1,也对应F指令;同时90度竖直移动时,电阻值为R2,所发出的电流为A2,对应E指令;在移动过程中移动角度会允许正负5度的误差,其所对应的电流值的误差阀值控制在正负0.5A。
检测单元 22 ,当用户操作重力传感器发出指令时,用于检测当前对应电流。
判断单元 23 ,其输入端分别与所述记录单元 21 的输出端以及所述检测单元 22
的输出端连接,根据所述当前对应的电流,在当前对应的电流的所述标准电流值的误差阈值内,用于判断是否存在发出指令的标准电流值。
指令发送单元 24 ,其输入端与所述判断单元 23 相连接,如果判断单元 23
判断存在发出指令的标准电流值时,用于发出所述标准电流值对应的指令;
数据发送单元 25 ,与所述判断单元 23 连接,其输入端与所述判断单元 23
的输出端连接,用于在所述判断单元 23 的判断结果为否时,向厂家预设的数据采集端发送技术使用数据。
其工作原理是:记录单元 21
记录发出指令的标准电流值、所述标准电流值所对应的指令、以及厂家预设的所述标准电流值的误差阈值,当用户操作重力传感器发出指令时,检测单元 22
检测当前对应电流;判断单元 23 根据所述当前对应的电流,在当前对应的电流的所述标准电流值的误差阈值内,判断是否存在发出指令的标准电流值,指令发送单元 24
在判断单元 23 判断存在发出指令的标准电流值时,发出所述标准电流值对应的指令,而当判断单元 23 判断结果为否时,数据发送单元 25
向厂家预设的数据采集端发送技术使用数据。
该发明通过对遥控器运动轨迹的判断,从而做到
降低遥控器的操作频率并提高操作质量,降低对用户操作的精确性的要求,避免误操作以及操作后无响应的情况,同时方便了厂家及时有效的采集相关技术的使用情况。
以上仅为本发明的较佳实施例而已,并不用以限制本发明,凡在本发明的精神和原则之内所作的任何修改、等同替换和改进等,均应包含在本发明的保护范围之内。
Claims (2)
- 一种判断运动轨迹时的数据采集方法,其特征在于,所述方法包括如下步骤:记录发出指令的标准电流值、所述标准电流值所对应的指令、以及厂家预设的所述标准电流值的误差阈值;当用户操作重力传感器发出指令时,检测当前对应电流;根据所述当前对应的电流,在当前对应的电流的所述标准电流值的误差阈值内,判断是否存在发出指令的标准电流值;若是,发出所述标准电流值对应的指令;若否,不发出任何指令,并向厂家预设的数据采集端发送技术使用数据。
- 一种 遥控器 ,其特征在于,所述 遥控器 包括:记录单元,用于记录发出指令的标准电流值、所述标准电流值所对应的指令、以及厂家预设的所述标准电流值的误差阈值;检测单元,当用户操作重力传感器发出指令时,用于检测当前对应电流;判断单元,其输入端分别与所述记录单元的输出端以及所述检测单元的输出端连接,根据所述当前对应的电流,在当前对应的电流的所述标准电流值的误差阈值内,用于判断是否存在发出指令的标准电流值;指令发送单元,其输入端与所述判断单元相连接,如果判断单元判断存在发出指令的标准电流值时,用于发出所述标准电流值对应的指令;数据发送单元,与所述判断单元连接,其输入端与所述判断单元的输出端连接,用于在所述判断单元的判断结果为否时,向厂家预设的数据采集端发送技术使用数据。
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