CN204965183U - Autonomic portable intelligent robot - Google Patents

Abstract

The utility model provides an autonomic portable intelligent robot, is provided with mobile agent, the runner through motor drive, power management module, a set of above ultrasonic ranging module, motor control module and host system, the runner assemble in the mobile agent, power management module, ultrasonic ranging module, motor control module and host system set up in the mobile agent, power management module respectively with ultrasonic ranging module, host system electricity are connected, ultrasonic ranging module with host system connects, host system with motor control module connects, motor control module with the motor is connected, still be provided with infrared pursuit module, infrared pursuit module with the host system electricity is connected. This autonomic portable intelligent robot has low cost, simple, the rapid characteristics of reaction of data processing.

Description

Autonomous formula intelligent robot

Technical field

The utility model relates to intelligent robot technology field, particularly relates to a kind of autonomous formula intelligent robot.

Background technology

Movable object tracking technology is one of major issue of field in intelligent robotics, it is widely used in the fields such as intelligent transportation, Human bodys' response, intelligent monitor system, not only achieve the Intelligent life of people, also solving under some rugged surroundings human body cannot the problem of operation.Although the history of correlative study many decades, this problem remains a study hotspot of computer vision, pattern-recognition, particularly robot field at present.In recent years, along with moving human hand tracking technology is in the development of the widespread use in the fields such as service type robot, anti-terrorism robot, movable object tracking technology became one of the research direction in forward position the most in computer vision field gradually.In recent years, many scholars improve the precision of robot in complicated environment target following by the method extracting plurality of target Expressive Features or fusion multi-sensor information.Adopt stereo visual system more, by restoration scenario three-dimensional information for system provides the active position of target, simultaneously little by such environmental effects such as illumination, therefore be widely used in the track algorithm of some complexity, at present in the algorithm of tracked mobile target, majority carries out by means of ccd image sensor.

The distinctive technique of ccd image sensor, has the advantages such as low-light (level) is effective, signal to noise ratio (S/N ratio) is high, penetrating sense is strong, color restoration capability is good, widespread use in the high-end field such as traffic, medical treatment.Mobile robot's target recognition and tracking intelligent system, current majority completes the function of the identification of target, location, tracking by means of ccd image sensor, although ccd image sensor is powerful, but cost is also higher, simultaneously the algorithm of image acquisition, identification and process is also relatively complicated.

Therefore, not enough for prior art, provide a kind of with low cost, data processing is simple, willing autonomous formula intelligent robot is very necessary to overcome prior art deficiency.

Utility model content

The purpose of this utility model is avoid the deficiencies in the prior art part and provide a kind of autonomous formula intelligent robot, this autonomous formula intelligent robot have with low cost, data processing is simple, willing feature.

Above-mentioned purpose of the present utility model is realized by following technical measures:

A kind of autonomous formula intelligent robot, be provided with mobile agent, by motor-driven runner, power management module, more than one group ultrasonic distance measuring module, motor control module and main control module;

Described runner is assemblied in described mobile agent, described power management module, ultrasonic distance measuring module, motor control module and described main control module are arranged at described mobile agent, described power management module is electrically connected with described ultrasonic distance measuring module, main control module respectively, described ultrasonic distance measuring module is connected with described main control module, described main control module is connected with described motor control module, and described motor control module is connected with described motor;

The distance of described ultrasonic distance measuring module detection mobile agent distance barrier, and by detected information conveyance to main control module, main control module outputs control signals to described motor control module, the motion of motor is controlled by motor control module, thus control speed and the direction of runner, realize the control to mobile agent motion path.

Above-mentioned ultrasonic distance measuring module is arranged at the position, dead ahead of described mobile agent.

Above-mentioned autonomous formula intelligent robot is also provided with infrared tracing module, and described infrared tracing module is electrically connected with described main control module.

Preferably, above-mentioned main control module is provided with the chip U1 that model is TX2440A, and chip U1 has GPIO interface P2, CAMERA interface P1 and BUS interface P7;

Described ultrasonic distance measuring module is set to the ultrasonic distance measuring module of model HC-SR04;

Described motor control module is set to the chip U2 of model L298N;

Described infrared tracing module is set to the infrared sensor H of multiple model V51838B;

The pin TRIG of ultrasonic distance measuring module and the pin 3 of GPIO interface P2, pin 5, pin 7 or pin 9 is corresponding connects, the pin ECHO of ultrasonic distance measuring module and the pin 4 of GPIO interface P2, pin 6, pin 8 or pin 10 is corresponding connects;

The pin 27 of GPIO interface P2 is connected with the pin 6 of chip U2, and the pin 28 of PIO interface P2 is connected with the pin 11 of chip U2;

The pin 2 of BUS interface P7 is connected with the pin 5 of chip U2, the pin 1 of BUS interface P7 is connected with the pin 7 of chip U2, the pin 4 of BUS interface P7 is connected with the pin 10 of chip U2, the pin 3 of BUS interface P7 is connected with the pin 12 of chip U2, pin 8 all ground connection of the pin 1 of chip U2, the pin 15 of chip U2 and chip U2, the pin 2 of chip U2 connects the positive pole of motor M 1, the pin 3 of chip U2 connects the negative pole of motor M 1, the negative pole that the pin 13 of chip U2 connects the positive pole of motor M 2, the pin 14 of chip U2 connects motor M 2;

The pin 19 of the pin 12 of the signal pins input end of infrared sensor H and the pin 11 of CAMERA interface P1, CAMERA interface P1, the pin 13 of CAMERA interface P1, the pin 18 of CAMERA interface P1 or CAMERA interface P1 is corresponding to be connected.

Preferably, autonomous formula intelligent robot, in moving process, carries out obstacle recognition, carries out especially by following method:

First, in one-period, carry out N range observation, 3≤N≤6 by ultrasonic distance measuring module, and N is natural number, measured result is inputed to described main control module by ultrasonic distance measuring module;

Variation error between N distance value measured by master control module judges, if distance variation error is in Scm, S is numerical value, and S≤10cm is then judged to be static-obstacle thing, enters and keeps away barrier operation; If the variation error between measured distance is greater than Scm, be then judged to be dynamic barrier, target approach follows the tracks of operation.

Described barrier of keeping away operates specifically:

In time detecting that the distance between distance barrier is less than safe distance, main control module outputs control signals to described motor control module, and motor carries out stopping action making mobile agent static;

Then main control module outputs control signals to described motor control module, and described motor control module controls motor and carries out corresponding rotation, makes the first slow astern segment distance of mobile agent then turn right or turn left, then moves on;

In the process moved on, rejudge before working direction whether there is barrier, and judge obstacle identity, take to keep away barrier operation or target following operation.

Described target following operates specifically:

Infrared sensor H follows the tracks of moving obstacle, master control module controls motor control module, and motor control module controls the motion of motor, makes mobile agent in the scope kept a safe distance, and mobile agent is advanced along with the motion of moving obstacle.

Preferably, above-mentioned ultrasonic distance measuring module is set to three or four.

Preferably, above-mentioned infrared tracing module is provided with the infrared sensor H of five model V51838B.

A kind of autonomous formula intelligent robot of the present utility model, be provided with mobile agent, by motor-driven runner, power management module, more than one group ultrasonic distance measuring module, motor control module and main control module; Described runner is assemblied in described mobile agent, described power management module, ultrasonic distance measuring module, motor control module and described main control module are arranged at described mobile agent, described power management module is electrically connected with described ultrasonic distance measuring module, main control module respectively, described ultrasonic distance measuring module is connected with described main control module, described main control module is connected with described motor control module, and described motor control module is connected with described motor; The distance of described ultrasonic distance measuring module detection mobile agent distance barrier, and by detected information conveyance to main control module, main control module outputs control signals to described motor control module, the motion of motor is controlled by motor control module, thus control speed and the direction of runner, realize the control to mobile agent motion path.This autonomous formula intelligent robot adopts ultrasonic distance measuring module to carry out obstacle distance mensuration, motor control module is output control signals to by main control module, control the running of motor by motor control module thus realize control to runner motion state, have with low cost, data processing is simple, willing feature.

Accompanying drawing explanation

The utility model will be further described by reference to the accompanying drawings, but the content in accompanying drawing is not formed any restriction of the present utility model.

Fig. 1 is the structural representation of a kind of autonomous formula of the utility model intelligent robot.

Fig. 2 is the structural representation of the GPIO interface P2 of the utility model autonomous formula intelligent robot main control module chip U1.

Fig. 3 is the structural representation of the BUS interface P7 of the utility model autonomous formula intelligent robot main control module chip U1.

Fig. 4 is the structural representation of the CAMERA interface P1 of the utility model autonomous formula intelligent robot main control module chip U1.

Fig. 5 is the connection diagram of GPIO interface P2 and the three group ultrasonic distance measuring module of the utility model autonomous formula intelligent robot.

Fig. 6 is the circuit diagram of the motor control module of the utility model autonomous formula intelligent robot.

Fig. 7 is the connection diagram of CAMERA interface P1 and five infrared tracing module of the utility model autonomous formula intelligent robot.

In Fig. 1 to Fig. 7, comprise.

Main control module 100, ultrasonic distance measuring module 200, motor control module 300,

Motor 400, runner 500, infrared tracing module 600, power management module 700.

Embodiment

With the following Examples the utility model is further described.

embodiment 1.

A kind of autonomous formula intelligent robot, the runner 500 as shown in Figure 1, be provided with mobile agent, being driven by motor 400, the ultrasonic distance measuring module 200 of power management module more than 700, a group, motor control module 300 and main control module 100.

Runner 500 is assemblied in mobile agent, power management module 700, ultrasonic distance measuring module 200, motor control module 300 and main control module 100 are arranged at mobile agent, power management module 700 is electrically connected with ultrasonic distance measuring module 200, main control module 100 respectively, ultrasonic distance measuring module 200 is connected with main control module 100, main control module 100 is connected with motor control module 300, and motor control module 300 is connected with motor 400.

Ultrasonic distance measuring module 200 detects the distance of mobile agent distance barrier, and by detected information conveyance to main control module 100, main control module 100 outputs control signals to motor control module 300, the motion of motor 400 is controlled by motor control module 300, thus control speed and the direction of runner 500, realize the control to mobile agent motion path.

Concrete, ultrasonic distance measuring module 200 is arranged at the position, dead ahead of mobile agent, to improve the identification of supersonic range finder to preceding object thing.In order to improve precision, many group ultrasonic distance measuring modules 200 can be set, preferably be set to three or four, with the Received signal strength simultaneously in multiple position, realize the barrier that mobile agent sooner, more surely, more safely can avoid any direction.This autonomous formula intelligent robot is also provided with infrared tracing module 600, and infrared tracing module 600 is electrically connected with main control module 100.By infrared tracing module 600, can follow the tracks of the target motive objects in front.

Concrete, main control module 100 is provided with the chip U1 that model is TX2440A, and chip U1 has GPIO interface P2, CAMERA interface P1 and BUS interface P7, as shown in Figure 2, Figure 3, Figure 4.

Ultrasonic distance measuring module 200 is set to the ultrasonic distance measuring module 200 of model HC-SR04, and motor control module 300 is set to the chip U2 of model L298N, and infrared tracing module 600 is set to the infrared sensor H of multiple model V51838B.

The pin TRIG of ultrasonic distance measuring module 200 and the pin 3 of GPIO interface P2, pin 5, pin 7 or pin 9 is corresponding connects, the pin ECHO of ultrasonic distance measuring module 200 and the pin 4 of GPIO interface P2, pin 6, pin 8 or pin 10 is corresponding connects.The pin 3 of GPIO interface P2, pin 5, pin 7 or pin 9 connect with the trigger pip input pin TRIG of corresponding ultrasonic distance measuring module 200, the detection of preceding object thing distance is carried out to trigger corresponding ultrasonic distance measuring module 200, the back-signalling pin ECHO of ultrasonic distance measuring module 200 inputs to the pin 4 of GPIO interface P2, pin 6, pin 8 or pin 10, the signal that main control module 100 detects according to ultrasonic distance measuring module 200 carries out obstacle distance detection, exports and carries out keeping away barrier or carrying out the control signal such as following the tracks of.Fig. 5 is the connection diagram of GPIO interface P2 and three group ultrasonic distance measuring module 200, it should be noted that, the quantity of ultrasonic distance measuring module is not limited to three of the present embodiment, also can be set to four or other quantity.

As shown in Figure 6, main control module 100 is controlled by the motion state of motor control module 300 pairs of motors 400.The pin 27 of GPIO interface P2 is connected with the pin 6 of chip U2, and the pin 28 of PIO interface P2 is connected with the pin 11 of chip U2.The pin 27 of GPIO interface P2, pin 28 are that PWM generates pin, provide the control of controllable pwm signal realization to robot translational speed to chip U2.

As shown in Figure 7, the pin 2 of BUS interface P7 is connected with the pin 5 of chip U2, the pin 1 of BUS interface P7 is connected with the pin 7 of chip U2, the pin 4 of BUS interface P7 is connected with the pin 10 of chip U2, the pin 3 of BUS interface P7 is connected with the pin 12 of chip U2, pin 8 all ground connection of the pin 1 of chip U2, the pin 15 of chip U2 and chip U2, the pin 2 of chip U2 connects the positive pole of motor 400M1, the pin 3 of chip U2 connects the negative pole of motor 400M1, the negative pole that the pin 13 of chip U2 connects the positive pole of motor 400M2, the pin 14 of chip U2 meets motor 400M2.The pin 1,2,3,4 of BUS interface P7 provides the port input signal of chip U2 respectively.

Main control module 100 is by the pin 27,28 of GPIO interface P2 and the pin 1,2,3,4 of BUS interface P7, the control signal of main control module 100 is controlled the rotating speed of motor 400M1, M2, direction by chip L298N, thus realize controlling the motion state of the runner 500 of mobile agent, enable intelligent robot freely carry out advancing, retreat, turn left, right turn movements, under the control of main control module 100, carry out the tracking that barrier is kept away barrier or carried out moving target.

In the present embodiment, infrared tracing module 600 is provided with the infrared sensor H of five model V51838B.This intelligent robot does not use ccd image sensor, adopts the pin 11,12,3,14,18,19 of the CAMERA interface P1 of main control module 100 to input as the signal pins of five infrared sensors, not enable pull-up.Concrete, the pin 19 of the pin 12 of the signal pins input end of infrared sensor H and the pin 11 of CAMERA interface P1, CAMERA interface P1, the pin 13 of CAMERA interface P1, the pin 18 of CAMERA interface P1 or CAMERA interface P1 is corresponding to be connected.

It should be noted that, when Tracking Recognition is carried out at present to movement, assembled in advance infrared transmitting tube can be had in moving target, infrared transmitting tube entrained by moving target and this infrared sensor set by autonomous formula intelligent robot match, and can signal communication be carried out, the two forms infrared emission, receiving tube.

Autonomous formula intelligent robot, in moving process, carries out obstacle recognition, carries out especially by following method:

First, in one-period, carry out N range observation, 3≤N≤6 by ultrasonic distance measuring module 200, and N is natural number, measured result is inputed to main control module 100 by ultrasonic distance measuring module 200;

Main control module 100 judges the variation error between N time measured distance value, if distance variation error is in Scm, S is numerical value, and S≤10cm is then judged to be static-obstacle thing, enters and keeps away barrier operation; If the variation error between measured distance is greater than Scm, be then judged to be dynamic barrier, target approach follows the tracks of operation.

Keep away barrier operation specifically:

In time detecting that the distance between distance barrier is less than safe distance, main control module 100 outputs control signals to described motor control module 300, and motor 400 carries out stopping action making mobile agent static;

Then main control module 100 outputs control signals to described motor control module 300, and described motor control module 300 controls motor 400 and carries out corresponding rotation, makes the first slow astern segment distance of mobile agent then turn right or turn left, then moves on;

In the process moved on, rejudge before working direction whether there is barrier, and judge obstacle identity, take to keep away barrier operation or target following operation.

Keep away barrier operation setting safe distance, the time in that the distance between barrier and intelligent robot being less than safe distance, mobile robot just starts to keep away barrier action, the object done like this, is to ensure that mobile robot can have sufficient Time and place to perform and keep away barrier action.

In time being less than safe distance, main control module 100 controls intelligent robot and first stops, retreating, then carries out turning left or having turning, and then advances and continues to detect barrier in advance.

Of the present utility modelly keep away barrier mode, the motion track of robot is round and smooth, and the movement of intelligent robot is more steady.

Target following operates specifically:

Infrared sensor H follows the tracks of moving obstacle, main control module 100 controls motor control module 300, motor control module 300 controls the motion of motor 400, makes mobile agent in the scope kept a safe distance, and mobile agent is advanced along with the motion of moving obstacle.

This mobile robot can perform mobile operation under location circumstances, in whole process of executing the task, the omnidistance intervention not needing people, intelligent mobile robot relies on the various types of biography intelligent sensors oneself installed completely, Real-time Collection, perception surrounding enviroment, the correct kind (static or dynamic) identifying barrier, for static-obstacle thing, then performs automatic obstacle avoiding strategy; If what identify is dynamic barrier, then perform tracking strategy.Intelligent mobile robot of the present utility model, although do not use ccd image sensor, but adopt and ultrasonicly involve infrared sensor, but more satisfactory effect can be reached equally, the tracking of the moving target based on certain feature can be realized, or based on the tracking problem of nonspecific moving target.

This autonomous formula intelligent robot, do not adopt ccd image sensor expensive in prior art, but the technology adopting ultrasonic distance measuring module 200 and infrared sensor H to combine carries out obstacle recognition, barrier keeps away barrier and mobile object is followed the tracks of, and has structure simple, feature with low cost.

Owing to not needing to carry out the operations such as reduction treatment to image, therefore data processing is relatively simple, and processing speed is fast, is swift in response.

After should be noted that; above embodiment is only in order to illustrate the technical solution of the utility model but not restriction to the utility model protection domain; although be explained in detail the utility model with reference to preferred embodiment; those of ordinary skill in the art is to be understood that; can modify to the technical solution of the utility model or equivalent replacement, and not depart from essence and the scope of technical solutions of the utility model.

Claims (6)

1. an autonomous formula intelligent robot, is characterized in that: be provided with mobile agent, by motor-driven runner, power management module, more than one group ultrasonic distance measuring module, motor control module and main control module;

Described runner is assemblied in described mobile agent, described power management module, ultrasonic distance measuring module, motor control module and described main control module are arranged at described mobile agent, described power management module is electrically connected with described ultrasonic distance measuring module, main control module respectively, described ultrasonic distance measuring module is connected with described main control module, described main control module is connected with described motor control module, and described motor control module is connected with described motor.

2. autonomous formula intelligent robot according to claim 1, is characterized in that: described ultrasonic distance measuring module is arranged at the position, dead ahead of described mobile agent.

3. autonomous formula intelligent robot according to claim 2, is characterized in that: be also provided with infrared tracing module, and described infrared tracing module is electrically connected with described main control module.

4. autonomous formula intelligent robot according to claim 3, is characterized in that:

Described main control module is provided with the chip U1 that model is TX2440A, and chip U1 has GPIO interface P2, CAMERA interface P1 and BUS interface P7;

Described ultrasonic distance measuring module is set to the ultrasonic distance measuring module of model HC-SR04;

Described motor control module is set to the chip U2 of model L298N;

Described infrared tracing module is set to the infrared sensor H of multiple model V51838B;

The pin TRIG of ultrasonic distance measuring module and the pin 3 of GPIO interface P2, pin 5, pin 7 or pin 9 is corresponding connects, the pin ECHO of ultrasonic distance measuring module and the pin 4 of GPIO interface P2, pin 6, pin 8 or pin 10 is corresponding connects;

The pin 27 of GPIO interface P2 is connected with the pin 6 of chip U2, and the pin 28 of PIO interface P2 is connected with the pin 11 of chip U2;

The pin 2 of BUS interface P7 is connected with the pin 5 of chip U2, the pin 1 of BUS interface P7 is connected with the pin 7 of chip U2, the pin 4 of BUS interface P7 is connected with the pin 10 of chip U2, the pin 3 of BUS interface P7 is connected with the pin 12 of chip U2, pin 8 all ground connection of the pin 1 of chip U2, the pin 15 of chip U2 and chip U2, the pin 2 of chip U2 connects the positive pole of motor M 1, the pin 3 of chip U2 connects the negative pole of motor M 1, the negative pole that the pin 13 of chip U2 connects the positive pole of motor M 2, the pin 14 of chip U2 connects motor M 2;

The pin 19 of the pin 12 of the signal pins input end of infrared sensor H and the pin 11 of CAMERA interface P1, CAMERA interface P1, the pin 13 of CAMERA interface P1, the pin 18 of CAMERA interface P1 or CAMERA interface P1 is corresponding to be connected.

5. autonomous formula intelligent robot according to claim 4, is characterized in that: described ultrasonic distance measuring module is set to three or four.

6. autonomous formula intelligent robot according to claim 4, is characterized in that: described infrared tracing module is provided with the infrared sensor H of five model V51838B.