Installation of Mechatronics Education Using the MindStorms for Dept. of Mechanical Engineering, O.N.C.T

The author constructed an installation course of mechatronics and conducted on the students of department of mechanical engineering, Oita national college of technology. The course is composed of six sessions and is aiming to grow up the mechanical engineers who can adapt quickly to changes in industrial society. Then, the education programs of computer technology and information processing are more emphasized in this course. Certainly the specific subjects involved with mechatronics are constructed as a part of curriculum in the older grades, however there is some difficulties to make students of department of mechanical engineering to have interests in electronics and/or information science. Viewed in this light, it is better to begin mechatronics education with undergoing experiments like this course since they were in early grade.


Introduction
In the late 1950s Japanese economy were growing remarkable.In order to sustain this economic growth and foster human resources who can provide advances in technology and science, the government established particular kind of educational institution, National College of Technology, in 1962.The educational system of National College of Technology is positioned between industrial high school and technological university, because the age range of student is from fifteen to twenty.Basically, the first grade students are the graduates of junior high school so that students are not sufficiently grown to understand special subjects and mechanisms of most advanced technologies.There are 55 scholastic institutions throughout Japan at the present day, so that one or two schools have been established in each prefecture.Each school is allowed to construct department and to have own educational curriculum, and most of schools have own advanced course (http://www.kosen-k.go.jp/english/index.html).Educational programs for early year are mainly composed of general studies such as mathematics, foreign and international languages, social studies, and physical education, and so on.Meanwhile special subjects including graduation research are implemented in higher-grade educational program.The purpose of graduation research is to foster the ability as engineer, and then final-year students engage in researching at their interesting laboratory for one year, in which lots of scientific papers have been published every year.Mechatronics is one of the major technical studies and consists of wide variety of technologies, such as mechanics, electronics, programming, and robotics, and so on, so that it is difficult to compose an educational program of mechatronics.In fact, many textbooks for mechatronics covering a broad range of specific subject have been published.To select a text book suit for levels of student is also difficult.Then, the author assumed that practical work more effect for mechatronics installation education than classroom lecture using textbooks.Mind Storms, a set of small plastic and various shaped blocks, motors and several different types of sensors, produced by LEGO Group, has been already known as one of good educational toolkits for mechatronics installation (Komatsu et al., 2000)(Nakashima et al., 2001)(Inagaki et al., 2001).A variety of of guide books for MindStorms have been published [5].By using a toolkit of MindStorms, trainers can easily get trainees started on learning the basic factors of manufacturing.In the department of mechanical engineering of Oita National College of Technology, mechatronics education begins from the first grade as a part of practical training program.This chapter introduces a method of mechatronics installation by using Mind Storms have implemented in the department of mechanical engineering of Oita National College of Technology (http://www.oita-ct.ac.jp/).

Orientation
The mechatronics installation education presented in this chapter have been implemented as a part of practical training subject from 2006 against the first grade students belonging to department of mechanical engineering.The practical training of the first grade student is composed of the following six courses; lathe turning machine (eighteen hours), drafting (three hours), hand finishing (fifteen hours), mechatronics installation (eighteen hours), assembly of a micro-car (twelve hours), and fishing lure manufacturing (six hours).Because of a number of classmates, forty students take part in the course every year, students are divided into four groups.Each group participates in these courses as shown in Table 1.Total learning time of the practical training is twenty-four, and only six times of the total number is assigned to the mechatronics installation course.In order to make students comprehensively learn a subject of mechatronics, MindStorms has been adopted as educational tool of this mechatronics installation course.MindStorms is an integrated educational toolkit for mechatronics learning.A toolkit contains variouslyshaped blocks, a RCX controller, a Robolab programming software, and some kinds of sensors.It enables students experimentally learn the factors necessary to make a controllable robot.A lot of installation books of MindStorms have been published (Sato, 2000) (Eto, 1999).

Method
The subject of practical training has been held for three hours one day a week.Especially, as shown in Table 1, the mechatronics course consists of six lessons.The followings describe the educational contents undertaken in each week.
Installation of Mechatronics Education Using the MindStorms for Dept. of Mechanical Engineering, O.N.C.T 341

Installation
At the first session of this mechatronics course, firstly basic concepts of mechatronics are introduced into the students, for example, a history of robotics, fundamental construction of mechatronics devices, name derivation of mechatronics, and so on.A car wiper drive system, moving from side to side, is one of familiar mechatronics devices even young students, and to think this mechanism is employed as the first problem of this course.Students firstly sketch a mechanism which enable wiper blades to move from side to side under a bonnet of car based on their imagination.Next, they try to shape the sketch by using MindStorms.

Duplication of mechanical module
Several kinds of mechanical modules, such as lever slider, one-way ratchet, spur wheel, geneva drive, eccentric crank, etc, produced by SHINKO engineering research corporation, had been introduced in order to educate dynamics of mechanism.Though a subject of dynamics of mechanism begins in the fourth grade, these modules are suited to installation tools of dynamics of mechanism because students can experimentally observe behaviours of gears, linkages, and other mechanical components.For example, in the case of eccentric crank module as shown in Fig. 2, the rotational motion driven from handle operation is transformed into the translational motion of the work.After observing these mechanical modules, students try to duplicate their favorite mechanical module by using MindStorms.
In order to completely build the mechanical module, firstly proper block selection has to be done under considering overall stiffness of module.Some of students wrote a conceptual drawing by using selecting blocks.In the phase of assembling, fitness between other shaped blocks due to their different thickness.Most of students selected the eccentric crank and had spent about two hours.Seventy percentage of students could duplicate the function of eccentric crank by using MindStorms.

Introduction for Sequential Control System
The third session begins with introduction of sequential control that is used in a variety of devices supporting our dairy comfort life, such as auto vender, laundry machine, and some kind of audio devices, etc.In order to educate sequential control method and mechanisms necessary for running an automated production line, a purchasable miniature model which imitates an automated production line system is adopted.The department had installed an automation education line system few years ago.

Assemble a multi-legs robot
In the fourth session a guide book for MindStorms written in Japanese (Sato.2000) is used as a manual to assemble a mobile robot.This book shows how to assemble several types of robot, such as multi-legs walking robot and wheel type mobile robot and so on.Fig. 5 shows a multi-legs walking robot named Musimusi No.5, which can be built by reference to the study guide.It averagely took about an hour and a half to complete this robot.

Programming
RCX is a delicate controller for MindStorms which has a 8 bit micro processor.It has three input ports and three output ports.Fig. 6 shows a RCX connecting with a motor, a lamp, a touch sensor, and a light sensor.A GUI based programming software, Robolab, is prepared as a regular programming software of MindStroms.Fig. 7 shows a programming environment of Robolab, where only users align command icons and connect them with wires in order to control some motors and actuators of MindStorms.All control command icon is prepared in the function panel.Operation commands for icons like wires can be selected on the tool panel as shown in Fig. 7.This programming environment of Robolab is well-suited to the beginners because of its friendliness, and makes it possible to code some high-level programming techniques such as conditional branching and infinite loop, etc.Since this mechatronics course has to be implemented in short space of time, teachable programming techniques are restricted.Fortunately some fundamental programs are previously installed in software for self-education then there is no difficulties to introduce the basic function of Robolab and make students to understand a signal flow of program.
After students understand and run the programs by using RCX, they try to make the programs working out several instructions in order to cultivate their programming ability.
The following itemized instructions is an example of the training, and its corresponding program is shown in Fig. 7.
I. When the touch sensor mounted at port 1 is pressed, then both of motors mounted at port A and C rotate in left direction for three seconds.II.When the touch sensor mounted at port 1 is pressed again, both of motors mounted at port A and C rotate in right direction.III.When the touch sensor mounted at port 1 is pressed, then the rotating two motors stop.

Result
This mechatronics installation course aims to make students to briefly know not only basic concepts of mechatronics but also difficulties of manufacturing.A toolkit of Mindstorms has an infinite of design freedom, so that this toolkit is able to foster students' creativity and design talent.Most of students had worked at this mechatronics installation course in earnest and developed interests in mechatronics.After learning basic techniques to assemble a movable robot and write a programming code, students addressed the challenge of obstacle course at the final session.Fig. 9 shows two robots that could accomplish to clear the first obstacle course as shown in Fig. 8 (a).One is a type of autonomous robot that mounts RCX on its body and employed a rear-wheel-drive system.Students assumed that the functions required for a robot are to recognize accurately the surface of obstacle's wall, to keep going straight, and to change the direction of movement orthogonally.Firstly the robot moves toward the obstacle 1.After recognizing the surface of obstacle 1 by using the touch sensor fixed in front of body, the robot once goes back to turn a right and goes forward to the obstacle 2. After that, the robot goes to the goal in the same matter used to avoidance the obstacle 1.
On the contrary the robot shown in Fig. 9 (b) is manually controlled by the students.They used a RCX as a manual controller so that no sensors are mounted on the robot.The direction of movement is changed by differently adjusting the motor powers.The control signal is transmitted to the motor according to the timing of the student pushes a touch sensor mounted on RCX.The robot, as shown in Fig. 12(b), only goes straight by rotating swastika shaped legs.These legs always lift the body higher than the rubber hurdles and enabled the robot to get the goal without the legs hitch the rubber hurdles.
According to the result of questionnaire about this mechatronics course, the following answers are received; all students had the interests in mechatronics, 68% of students were highly interested in the obstacle course conducted in the final session, and 17% of students were especially concerned with RCX programming.The others concerned with making the mechanical modules by using MindStorms, the miniature automation line system, and the assembling a multi-legged robot at the same rate.

Discussion and Conclusion
The author constructed an installation course of mechatronics and conducted on the students of department of mechanical engineering, Oita national college of technology.The course is composed of six sessions and is aiming to grow up the mechanical engineers who can adapt quickly to changes in industrial society.Then, the education programs of computer technology and information processing are more emphasized in this course.
Certainly the specific subjects involved with mechatronics are constructed as a part of curriculum in the older grades, however there is some difficulties to make students of department of mechanical engineering to have interests in electronics and/or information science.Viewed in this light, it is better to begin mechatronics education with undergoing experiments like this course since they were in early grade.This course employed the obstacle course as the final project.Working at making a robot for obstacle environment provides a research factor for students.They have an opportunity to discuss about their strategy to make a robot and they can experience concurrent engineering between assembly of robot and design of the controller.Meanwhile, development of a line tracing robot based on MindStorms has commonly used as a training issue in mechatronics education.A line tracing robot generally consists of mechanisms, light sensors, and motors.Additionally, a repeatable structure program is necessary.Most of mechatronics factors are contained in making a line tracing robot, however, there are lots of information about line tracing robot based on MindStorms and Robolab on the Internet.Certainly, difficulties of line tracing robot can be increased by changing the line width and/or the path of line.The reason why obstacle course is employed as the final project of the mechatronics course is that nobody knows an appropriate solution corresponding to obstacle environments.
Students worked in a team to address each given environment.Obstacle environment had to be different corresponding to students' growth through the year, so that the evaluation method for students' grade must not focus on the result of the final problem.In this course the grade of student is evaluated from their submitted reports for every session, where their activeness and written description of their impressions for each sessions become mainly evaluation object.
It was difficult to keep enough time to make students to learn programming techniques of Robolab such as branch connection and conditional statement, so that some students could not know convenience of programming for controlling actuators.Increment of the programming session make it possible to enhance the quality of robot and raise success rate of the final project.Temporal distribution of every kind of mechatronics contents is the most important problem.
Fig. 1 shows a piece of work a student made, where four linkage blocks and two gears are used and it achieved to imitate the behaviour of wiper blades.A technical point is to change the direction of motion from rotational movement of gear to linear reciprocating motion in right-and-left of wiper blades.

Fig. 1 .
Fig. 1.A car wiper drive mechanism made from MindStorms Fig.3shows each work cells of the installed miniature automation line system.This production line makes two simple components to put together on a floating pallet as shown in Fig.4.The automated sequential tasks of each work cells are followings; the endeffector of the first work cell grasps a male component from the rotary table and puts it on the floating pallet on the belt conveyer.The second work cell has a suction type end effecter which vacuums a female component up and puts it on the male component fixed on the floating pallet, and then two different types of components are completely combined on the pallet.At last, the third cell takes the complete product.Each of works' movements gathered attention of students.They carefully observed mechanisms of rotary table of the first work and/or movements of each end effecters.A control panel of this automation line system is allocated under the table.Because the control panel administrates all of sensors, actuators, and work processes, each of indication lamps keep lighting-up during the automation system is running.The observation of control panel enables students to learn the roles of controller to manage actuators and sensors.
Fig. 4. A pair of components and pallet used in the miniature automated production line

Fig. 6 .
Fig. 6.A configuration of RCX, which connects with actuators and sensors.

Fig. 8 .
Fig. 8.(a) Scheme of the first obstacle course

Fig. 8 .
Fig. 8.(d) Scheme of the fourth obstacle course Fig. 10.An experimental scene of the second obstacle course

Fig. 12 .
Fig. 12.(a)A tank type robot with double arms for the forth obstacle course

Table 1 .
Time table of practical training though the year