CN108500982A - The construction method and its system of bionical multi-foot robot motor pattern - Google Patents

Abstract

The invention discloses a kind of construction methods of bionical multi-foot robot motor pattern, when the bionical multi-foot robot is horizontal movement, using the connection midpoint of the left and right foot of the same position of the bionical multi-foot robot as the center of circle, odd number foot on the left of the bionical multi-foot robot is successively with respective center of circle walking the first walking angle, even numbers foot on the right side of the bionical multi-foot robot is successively with respective center of circle walking the first walking angle, later, even numbers foot on the left of the bionical multi-foot robot is successively with respective center of circle walking the first walking angle, odd number foot on the right side of the bionical multi-foot robot is successively with respective center of circle walking the first walking angle；A kind of structure system of bionical multi-foot robot motor pattern is also disclosed, walking mobility and flexibility, the control algolithm that can improve multi-foot robot through the invention are simple.

Description

The construction method and its system of bionical multi-foot robot motor pattern

Technical field

The invention belongs to multi-foot robot control technology fields, are related to a kind of structure of bionical multi-foot robot motor pattern Method and its system.

Background technology

Multifeet walking robot, which is one kind, having redundant drive, highly branched chain, time-varying topology motion, is to imitate polypody to move The specialized robot of object forms of motion is a kind of Intelligent robot, it is to be related to bioscience, bionics, theory of mechanisms, biography One comprehensive high-tech of sense technology and the information processing technology etc..So-called polypody refers generally to four-footed and four-footed more than it, common Multifeet walking robot include four feet walking robot, Six-foot walking robot, eight feet walking robots etc..

Invention content

In view of this, the main purpose of the present invention is to provide a kind of construction methods of bionical multi-foot robot motor pattern And its system.

In order to achieve the above objectives, the technical proposal of the invention is realized in this way：

The embodiment of the present invention provides a kind of construction method of bionical multi-foot robot motor pattern, and this method is：When described When bionical multi-foot robot is horizontal movement, the connection midpoint with the left and right foot of the same position of the bionical multi-foot robot is The center of circle, the odd number foot on the left of the bionical multi-foot robot are described bionical successively with respective center of circle walking the first walking angle Even numbers foot on the right side of multi-foot robot is successively with respective center of circle walking the first walking angle, later, the bionical polypody machine Even numbers foot on the left of people is successively with respective center of circle walking the first walking angle, the odd number foot on the right side of the bionical multi-foot robot Successively with respective center of circle walking the first walking angle.

Further include in said program, before this method, by sensor determine bionical multi-foot robot be horizontal movement, to It left bank or is tilted to the right.

In said program, this method further includes：When the bionical multi-foot robot is to be tilted to the left, with described bionical more The connection midpoint of the left and right foot of the same position of biped robot is the center of circle, and the odd number foot on the left of the bionical multi-foot robot is successively With respective center of circle walking the second walking angle, the even numbers on the right side of the bionical multi-foot robot is sufficient successively with respective center of circle row Third walking angle is walked, later, the even numbers foot on the left of the bionical multi-foot robot is successively with the second row of respective center of circle walking Angle is walked, the odd number foot on the right side of the bionical multi-foot robot is successively with respective center of circle walking third walking angle.

In said program, this method further includes：When the bionical multi-foot robot is to by tilting, with described bionical more The connection midpoint of the left and right foot of the same position of biped robot is the center of circle, and the odd number foot on the left of the bionical multi-foot robot is successively Angle is walked with respective center of circle walking fourth line, the even numbers foot on the right side of the bionical multi-foot robot is successively with respective center of circle row It walks fifth line and walks angle, later, the even numbers foot on the left of the bionical multi-foot robot is successively with respective center of circle walking fourth line Angle is walked, the odd number foot on the right side of the bionical multi-foot robot walks angle with respective center of circle walking fifth line successively.

In said program, the odd number foot on the left of the bionical multi-foot robot is successively with the first walking of respective center of circle walking Angle, the even numbers foot on the right side of the bionical multi-foot robot is successively with respective center of circle walking the first walking angle, specially：Institute It states first on the left of bionical multi-foot robot odd number and is enough center of circle walking the first walking angle, subsequent odd number foot is successively with circle Heart walking the first walking angle subtracts misalignment angle.

In said program, the even numbers foot on the left of the bionical multi-foot robot is successively with the first walking of respective center of circle walking Angle, the odd number foot on the right side of the bionical multi-foot robot is successively with respective center of circle walking the first walking angle, specially：Institute It states first on the left of bionical multi-foot robot even numbers and is enough center of circle walking the first walking angle, subsequent even numbers foot is successively with circle Heart walking the first walking angle subtracts misalignment angle.

The embodiment of the present invention provides a kind of structure system of bionical multi-foot robot motor pattern, which includes：Judge Module, control module；

The judgment module, for pass through sensor determine bionical multi-foot robot be horizontal movement, be tilted to the left or It is tilted to the right；

The control module is used for when the bionical multi-foot robot is horizontal movement, with the bionical polypody machine The connection midpoint of the left and right foot of the same position of people is the center of circle, and the odd number foot on the left of the bionical multi-foot robot is successively with respective Center of circle walking the first walking angle, even numbers foot on the right side of the bionical multi-foot robot walks first with the respective center of circle successively Walk angle, later, even numbers on the left of bionical multi-foot robot foot successively with respective center of circle walking the first walking angle, Odd number foot on the right side of the bionical multi-foot robot is successively with respective center of circle walking the first walking angle.

In said program, the control module is additionally operable to when the bionical multi-foot robot is to be tilted to the left, with described The connection midpoint of the left and right foot of the same position of bionical multi-foot robot is the center of circle, the odd number on the left of the bionical multi-foot robot Foot is successively with respective center of circle walking the second walking angle, and the even numbers foot on the right side of the bionical multi-foot robot is successively with respective Center of circle walking third walking angle, later, the even numbers foot on the left of the bionical multi-foot robot is walked with the respective center of circle successively Second walking angle, odd number foot on the right side of the bionical multi-foot robot are walked angle with respective center of circle walking third successively.

In said program, the control module is additionally operable to when the bionical multi-foot robot is to by tilting, with described The connection midpoint of the left and right foot of the same position of bionical multi-foot robot is the center of circle, the odd number on the left of the bionical multi-foot robot Foot walks angle with respective center of circle walking fourth line successively, and the even numbers foot on the right side of the bionical multi-foot robot is successively with respective Center of circle walking fifth line walks angle, and later, the even numbers foot on the left of the bionical multi-foot robot is walked with the respective center of circle successively Fourth line walks angle, and the odd number foot on the right side of the bionical multi-foot robot walks angle with respective center of circle walking fifth line successively.

In said program, the control module is specifically used for first odd number on the left of the bionical multi-foot robot It is enough center of circle walking the first walking angle, subsequent odd number foot subtracts misalignment angle with center of circle walking the first walking angle successively.

Compared with prior art, the present invention can improve walking mobility and the flexibility of multi-foot robot, control algolithm Simply.

Description of the drawings

Fig. 1 provides a kind of flow signal of the construction method of bionical multi-foot robot motor pattern for the embodiment of the present invention Figure.

Specific implementation mode

In order to make the purpose , technical scheme and advantage of the present invention be clearer, with reference to the accompanying drawings and embodiments, right The present invention is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, and It is not used in the restriction present invention.

The embodiment of the present invention provides a kind of construction method of bionical multi-foot robot motor pattern, as shown in Figure 1, this method It is realized by following steps：

Step 101：Determine that bionical multi-foot robot is horizontal movement, is tilted to the left or is tilted to the right by sensor；

Step 102：When the bionical multi-foot robot is horizontal movement, with the same position of the bionical multi-foot robot The connection midpoint for the left and right foot set is the center of circle, and the odd number foot on the left of the bionical multi-foot robot is walked with the respective center of circle successively First walking angle, even numbers foot on the right side of the bionical multi-foot robot successively with respective center of circle walking the first walking angle, Later, the even numbers foot on the left of the bionical multi-foot robot is described bionical successively with respective center of circle walking the first walking angle Odd number foot on the right side of multi-foot robot is successively with respective center of circle walking the first walking angle.

Step 103：When the bionical multi-foot robot is to be tilted to the left, with the same position of the bionical multi-foot robot The connection midpoint for the left and right foot set is the center of circle, and the odd number foot on the left of the bionical multi-foot robot is walked with the respective center of circle successively Second walking angle, even numbers foot on the right side of the bionical multi-foot robot are walked angle with respective center of circle walking third successively, Later, the even numbers foot on the left of the bionical multi-foot robot is described bionical successively with respective center of circle walking the second walking angle Odd number foot on the right side of multi-foot robot is successively with respective center of circle walking third walking angle.

Step 104：When the bionical multi-foot robot is to by tilting, with the same position of the bionical multi-foot robot The connection midpoint for the left and right foot set is the center of circle, and the odd number foot on the left of the bionical multi-foot robot is walked with the respective center of circle successively Fourth line walks angle, and the even numbers foot on the right side of the bionical multi-foot robot walks angle with respective center of circle walking fifth line successively, Later, the even numbers foot on the left of the bionical multi-foot robot walks angle with respective center of circle walking fourth line successively, described bionical Odd number foot on the right side of multi-foot robot walks angle with respective center of circle walking fifth line successively.

Further, in order to improve the stabilization of bionical multi-foot robot walking, on the left of the bionical multi-foot robot Singular foot is successively with respective center of circle walking the first walking angle, and the even numbers foot on the right side of the bionical multi-foot robot is successively with each From the center of circle walking first walking angle, specially：First odd number on the left of the bionical multi-foot robot is enough center of circle row The first walking angle is walked, subsequent odd number foot subtracts misalignment angle with center of circle walking the first walking angle successively.

Even numbers foot on the left of the bionical multi-foot robot is described imitative successively with respective center of circle walking the first walking angle Odd number foot on the right side of raw multi-foot robot is successively with respective center of circle walking the first walking angle, specially：The bionical polypody First even numbers on the left of robot is enough center of circle walking the first walking angle, and subsequent even numbers foot is successively with center of circle walking first Walking angle subtracts misalignment angle.

The embodiment of the present invention also provides a kind of structure system of bionical multi-foot robot motor pattern, which includes：Sentence Disconnected module, control module；

The judgment module be used for by sensor determine bionical multi-foot robot for horizontal movement, be tilted to the left or It is tilted to the right；

The control module is used for when the bionical multi-foot robot is horizontal movement, with the bionical multi-foot robot The connection midpoint of left and right foot of same position be the center of circle, the odd number foot on the left of the bionical multi-foot robot is successively with respective Center of circle walking the first walking angle, even numbers foot on the right side of the bionical multi-foot robot are walked the first row with the respective center of circle successively Angle is walked, later, the even numbers foot on the left of the bionical multi-foot robot is successively with respective center of circle walking the first walking angle, institute The odd number foot on the right side of bionical multi-foot robot is stated successively with respective center of circle walking the first walking angle.

The control module is additionally operable to when the bionical multi-foot robot is to be tilted to the left, with the bionical polypody machine The connection midpoint of the left and right foot of the same position of people is the center of circle, and the odd number foot on the left of the bionical multi-foot robot is successively with respective Center of circle walking the second walking angle, even numbers foot on the right side of the bionical multi-foot robot walked third with the respective center of circle successively Walk angle, later, even numbers on the left of bionical multi-foot robot foot successively with respective center of circle walking the second walking angle, Odd number foot on the right side of the bionical multi-foot robot is successively with respective center of circle walking third walking angle.

The control module is additionally operable to when the bionical multi-foot robot is to by tilting, with the bionical polypody machine The connection midpoint of the left and right foot of the same position of people is the center of circle, and the odd number foot on the left of the bionical multi-foot robot is successively with respective Center of circle walking fourth line walk angle, even numbers on the right side of bionical multi-foot robot foot walks the 5th with the respective center of circle successively Walking angle, later, the even numbers foot on the left of the bionical multi-foot robot walk angle with respective center of circle walking fourth line successively, Odd number foot on the right side of the bionical multi-foot robot walks angle with respective center of circle walking fifth line successively.

The control module is specifically used for first odd number on the left of the bionical multi-foot robot being enough center of circle walking First walking angle, subsequent odd number foot subtract misalignment angle with center of circle walking the first walking angle successively.

The foregoing is only a preferred embodiment of the present invention, is not intended to limit the scope of the present invention.

Claims (10)

1. a kind of construction method of bionical multi-foot robot motor pattern, which is characterized in that this method is：When the bionical polypody When the artificial horizontal movement of machine, using the connection midpoint of the left and right foot of the same position of the bionical multi-foot robot as the center of circle, institute The odd number foot on the left of bionical multi-foot robot is stated successively with respective center of circle walking the first walking angle, the bionical polypody machine Even numbers foot on the right side of people is successively with respective center of circle walking the first walking angle, later, on the left of the bionical multi-foot robot Even numbers foot is successively with respective center of circle walking the first walking angle, and the odd number foot on the right side of the bionical multi-foot robot is successively with each From the center of circle walking first walking angle.

2. the construction method of bionical multi-foot robot motor pattern according to claim 1, which is characterized in that this method it Before further include determining that bionical multi-foot robot is horizontal movement, is tilted to the left or is tilted to the right by sensor.

3. the construction method of bionical multi-foot robot motor pattern according to claim 1 or 2, which is characterized in that the party Method further includes：When the bionical multi-foot robot is to be tilted to the left, with a left side for the same position of the bionical multi-foot robot Right sufficient connection midpoint is the center of circle, and the odd number foot on the left of the bionical multi-foot robot is successively with the second row of respective center of circle walking Angle is walked, the even numbers foot on the right side of the bionical multi-foot robot is successively with respective center of circle walking third walking angle, later, institute The even numbers foot on the left of bionical multi-foot robot is stated successively with respective center of circle walking the second walking angle, the bionical polypody machine Odd number foot on the right side of people is successively with respective center of circle walking third walking angle.

4. the construction method of bionical multi-foot robot motor pattern according to claim 3, which is characterized in that this method is also Including：When the bionical multi-foot robot is to by tilting, with the left and right foot of the same position of the bionical multi-foot robot Connection midpoint be the center of circle, the odd number foot on the left of the bionical multi-foot robot walks angle with respective center of circle walking fourth line successively It spends, the even numbers foot on the right side of the bionical multi-foot robot walks angle with respective center of circle walking fifth line successively, later, described imitative Even numbers foot on the left of raw multi-foot robot walks angle with respective center of circle walking fourth line successively, and the bionical multi-foot robot is right The odd number foot of side walks angle with respective center of circle walking fifth line successively.

5. the construction method of bionical multi-foot robot motor pattern according to claim 1, which is characterized in that described bionical Odd number foot on the left of multi-foot robot is successively with respective center of circle walking the first walking angle, the bionical multi-foot robot right side Even numbers foot successively with the respective center of circle walking first walking angle, specially：First on the left of the bionical multi-foot robot A odd number is enough center of circle walking the first walking angle, and subsequent odd number foot subtracts deviation with center of circle walking the first walking angle successively Angle.

6. the construction method of bionical multi-foot robot motor pattern according to claim 1, which is characterized in that described bionical Even numbers foot on the left of multi-foot robot is successively with respective center of circle walking the first walking angle, the bionical multi-foot robot right side Odd number foot successively with the respective center of circle walking first walking angle, specially：First on the left of the bionical multi-foot robot A even numbers is enough center of circle walking the first walking angle, and subsequent even numbers foot subtracts deviation with center of circle walking the first walking angle successively Angle.

7. a kind of structure system of bionical multi-foot robot motor pattern, which is characterized in that the system includes：Judgment module, control Molding block；

The judgment module determines that bionical multi-foot robot is horizontal movement, is tilted to the left or to the right for passing through sensor It tilts；

The control module is used for when the bionical multi-foot robot is horizontal movement, with the bionical multi-foot robot The connection midpoint of the left and right foot of same position is the center of circle, and the odd number foot on the left of the bionical multi-foot robot is successively with respective circle Heart walking the first walking angle, the even numbers foot on the right side of the bionical multi-foot robot is successively with the first walking of respective center of circle walking Angle, later, the even numbers foot on the left of the bionical multi-foot robot are described successively with respective center of circle walking the first walking angle Odd number foot on the right side of bionical multi-foot robot is successively with respective center of circle walking the first walking angle.

8. the structure system of bionical multi-foot robot motor pattern according to claim 6, which is characterized in that the control Module is additionally operable to when the bionical multi-foot robot is to be tilted to the left, with the same position of the bionical multi-foot robot The connection midpoint of left and right foot is the center of circle, and the odd number foot on the left of the bionical multi-foot robot walks second with the respective center of circle successively It walks angle, the even numbers foot on the right side of the bionical multi-foot robot is walked angle with respective center of circle walking third successively, later, Even numbers foot on the left of the bionical multi-foot robot is successively with respective center of circle walking the second walking angle, the bionical polypody machine Odd number foot on the right side of device people is successively with respective center of circle walking third walking angle.

9. the structure system of bionical multi-foot robot motor pattern according to claim 7 or 8, which is characterized in that described Control module is additionally operable to when the bionical multi-foot robot is to by tilting, with the same position of the bionical multi-foot robot The connection midpoint for the left and right foot set is the center of circle, and the odd number foot on the left of the bionical multi-foot robot is walked with the respective center of circle successively Fourth line walks angle, and the even numbers foot on the right side of the bionical multi-foot robot walks angle with respective center of circle walking fifth line successively, Later, the even numbers foot on the left of the bionical multi-foot robot walks angle with respective center of circle walking fourth line successively, described bionical Odd number foot on the right side of multi-foot robot walks angle with respective center of circle walking fifth line successively.

10. the structure system of bionical multi-foot robot motor pattern according to claim 9, which is characterized in that the control Molding block, specifically for first odd number on the left of the bionical multi-foot robot is enough center of circle walking the first walking angle, Subsequent odd number foot subtracts misalignment angle with center of circle walking the first walking angle successively.