WO2018023227A1

WO2018023227A1 - Robot mobile technology data acquisition method and robot

Info

Publication number: WO2018023227A1
Application number: PCT/CN2016/092540
Authority: WO
Inventors: 杨洁
Original assignee: 杨洁
Priority date: 2016-07-31
Filing date: 2016-07-31
Publication date: 2018-02-08

Abstract

Provided are a robot mobile technology data acquisition method and a robot. The method comprises: recording a light intensity threshold of a contrasting environment and a preset environment detection range (S101); in the preset environment detection range, detecting whether in the current environment, there is light whose light intensity is higher than the light intensity threshold of the contrasting environment (S102); if no, maintaining the original state (S103); if yes, moving towards the light, and sending the technical usage data to a data acquisition terminal preset by a manufacturer (S104). With the method, movement direction of the robot is controlled intuitively by using a flashlight, a laser pen and other light-emitting methods, so as to simplify operations and enhance user experience when controlling the robot, meanwhile facilitating the manufacturer to collect the usage of related technologies in a timely and effective manner.

Description

Data acquisition method and robot for robot mobile technology

Technical field

The invention belongs to the field of electronic technology, and in particular relates to a data acquisition method and a robot for a robot mobile technology.

Background technique

Nowadays, the number of patents applied by enterprises is increasing, and the use of patents in the market and products is increasing.

According to the national intellectual property database, OPPO applied for 938 invention patents in 2014, while Tencent Company of the same period The number of invention patents was 1,447. Among the inventions of the two companies, about 80% of the total number of invention patents related to user experience and direct user operations. Of course, similar patent applications, including other companies based on user experience, are also of a large order of magnitude, such as Xiaomi.

Considering the use of technology, 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. 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.

Therefore, there is a need for a method to timely assess the market acceptance or value of related technologies through real data, and at the same time, in order to make the relevant technology in my previous application "a method and robot for moving robots based on light intensity" timely Evaluation, a method of collecting/sending data using technology is proposed.

technical problem

The embodiment of the invention provides a data acquisition method for the robot movement technology, and the purpose is that the current robot movement mode is relatively simple, and the operation is relatively complicated, and the user has poor control experience on the robot, and needs to provide a robot movement that can be controlled. The direction method can also facilitate the timely and effective collection of relevant technologies by the manufacturer.

Technical solution

The present invention is implemented as follows: a data acquisition method for a robot mobile technology, comprising the following steps:

Record the light intensity threshold of the contrast environment and the preset environment detection range;

Detecting, within the preset environment detection range, whether a light intensity threshold higher than the contrast environment is present in the current environment;

If not, remain as it is;

If yes, the light is moved, and the technical usage data is sent to the data collection end preset by the manufacturer.

An embodiment of the present invention further provides a robot, including:

Recording unit, detecting unit, moving unit, technical data collecting unit, wherein:

a recording unit for recording a light intensity threshold of the contrast environment and a preset environment detection range;

a detecting unit, wherein the input end is connected to the output end of the recording unit, and is configured to detect, within the preset environment detecting range, whether a light intensity threshold higher than the contrast environment is present in the current environment;

a mobile unit, whose input end is connected to the output end of the detecting unit, for detecting that a light intensity threshold higher than the contrast environment occurs when the current environment is detected within the preset environment detection range Moving to the light;

The technical data collection unit has an input end connected to the output end of the mobile unit, and is configured to send technical usage data to a data collection end preset by the manufacturer.

Beneficial effect

The invention intuitively controls the moving direction of the robot by using a light-emitting method such as a flashlight or a laser pen, thereby simplifying the operation of the control robot, improving the user's control experience on the robot, and also facilitating timely and effective collection of relevant technologies by the manufacturer. .

DRAWINGS

1 is a schematic flowchart of a data collection method of a robot mobile technology according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a robot according to an embodiment of the present invention.

Embodiments of the invention

The present invention will be further described in detail below with reference to the accompanying drawings and embodiments. It is understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

FIG. 1 is a schematic flowchart of a data collection method of a robot mobile technology according to an embodiment of the present invention. For convenience of description, only parts related to the embodiment of the present invention are shown.

In step S101, a light intensity threshold of the contrast environment and a preset environment detection range are recorded.

In this embodiment, taking the robot movement as an example, for example, the current ambient light intensity is A candela, and the contrast light intensity threshold is higher in the current environment than the current environment, and the total is A. Add N Candela's light intensity, which varies according to the current environment.

The preset environment detection range may be centered on the body, and a range of a certain radius, for example, a robot-centered radius of 1 m may be preset.

In step S102, in the preset environment detection range, detecting whether a light intensity threshold higher than the contrast environment is present in the current environment; if not, proceeding to step S103, maintaining the original state; Then, the process proceeds to step S104, the light is moved, and the technical use data is transmitted to the data collection end preset by the manufacturer.

For example, the change in light intensity within a radius of 1 m centered on the robot is detected. If there is no light above the preset light intensity threshold A plus N candela, the robot does not move; if a light higher than the preset light intensity threshold A plus N candela appears, the robot moves in the bright direction.

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.

2 is a schematic structural diagram of a robot according to an embodiment of the present invention, where the robot includes:

Recording unit 21, detecting unit 22, moving unit 23, technical data collecting unit 24, wherein:

a recording unit 21, configured to record a light intensity threshold of the contrast environment, and a preset environment detection range;

The detecting unit 22 is connected to the output end of the recording unit 21 for detecting whether a light intensity threshold higher than the contrast environment is present in the current environment within the preset environment detection range. bright;

a mobile unit 23, whose input end is connected to the output end of the detecting unit 22, for detecting that a light intensity threshold higher than the contrast environment occurs within the current environment within the preset environment detection range When it is bright, it moves to the light;

The technical data collection unit 24 has an input end connected to the output end of the mobile unit 23 for transmitting technical usage data to a data collection end preset by the manufacturer.

The working principle is: the recording unit 21 records the light intensity threshold of the contrast environment, and the preset environment detection range; within the preset environment detection range, the detecting unit 22 detects whether the current environment is higher than the current environment. Comparing the brightness of the light intensity threshold of the environment; when the brightness of the light intensity threshold higher than the contrast environment occurs within the current environment within the preset environment detection range, the moving unit 23 moves to the light At the same time, the technical data collection unit 24 transmits the technical use data to the data collection terminal preset by the manufacturer.

The above are only the preferred embodiments of the present invention, and are not intended to limit the present invention. Any modifications, equivalents, and improvements made within the spirit and scope of the present invention should be included in the scope of the present invention. Inside.

Claims

A data acquisition method for a robot mobile technology, characterized in that the method comprises the following steps:

Record the light intensity threshold of the contrast environment and the preset environment detection range;

Detecting, within the preset environment detection range, whether a light intensity threshold higher than the contrast environment is present in the current environment;

If not, remain as it is;

If yes, the light is moved, and the technical usage data is sent to the data collection end preset by the manufacturer.
A robot, characterized in that the robot comprises:

Recording unit, detecting unit, moving unit, technical data collecting unit, wherein:

a recording unit for recording a light intensity threshold of the contrast environment and a preset environment detection range;

a detecting unit, wherein the input end is connected to the output end of the recording unit, and is configured to detect, within the preset environment detecting range, whether a light intensity threshold higher than the contrast environment is present in the current environment;

a mobile unit, whose input end is connected to the output end of the detecting unit, for detecting that a light intensity threshold higher than the contrast environment occurs when the current environment is detected within the preset environment detection range Moving to the light;

The technical data collection unit has an input end connected to the output end of the mobile unit, and is configured to send technical usage data to a data collection end preset by the manufacturer.