Imagery Model and Sport Confidence on Karate Kata Motion Skills
Muhamad Fajar, Yudha Munajat Saputra and Mulyana Mulyana
Universitas Pendidikan Indonesia, Jln. Dr. Setiabudhi No. 229 Bandung, Indonesia
muhamadfajarspd@student.upi.edu
Keywords: PETTLEP, Relaxation, Imagery, Sport Confidence, Kata, Karate.
Abstract: The aim of this study was to compare the influence of PETTLEP imagery and relaxation imagery on the
learning of karate kata. The samples were 40 novice futsal karateka who had been training for two months.
To achieve the purpose, a 2x2 factorial design was employed. The data were analyzed using a two-way
ANOVA in SPSS 23. The results revealed that the PETTLEP imagery model was better than the relaxation
imagery model in improving karate kata motion skills. The relaxation imagery model did not significantly
influence karate kata motion skills in high sport confidence. The PETTLEP imagery model was better than
the relaxation imagery model both in high and low sport confidence.
1 INTRODUCTION
Imagery is the exercise of mental skills by raising the
imagination of motion patterns or situations in the
mind that involves the elements of the senses so that
the sensation felt when imagining is similar to the
actual situation (Weinberg and Gould, 2011; Eklund
and Tenenbaum, 2014). There are several models of
imagery exercises, one of them is imagery model
which started with relaxation developed by Suinn
(1972). This imagery model is called visuo-motor
rehearsal behavior (VMBR). Relaxation before
imagery can alter the athlete's physiological state,
such as heart rate, blood pressure and muscle tension
(Weinberg, et al., 1981). In addition, the purpose of
giving relaxation is to clear the mind of the distracting
things and make the atmosphere quiet and calm.
Relaxation imagery is also called the traditional
imagery.
Some researchers have criticized the weaknesses
of imagery relaxation. Holmes and Colins (2001)
stated that relaxation before imagery was a way of
treatment from the past that was done for generations
and not a theory that emerged from the evidence of
research. Some studies have shown that imagery
relaxation has no impact on sport performance (Gray,
1989; Weinberg et al., 1981; Zervas and Kakkos,
1991). In addition, imagery scripts that used the one
size fits all rule (one for all) are less precise because
basically humans have differences both physically
and psychically (Wakefield, et al., 2013).
To cover the weaknesses of traditional imagery,
Holmes and Collins (2001) developed the PETTLEP
imagery model. This model emerged based on the
principle of functional equivalence where
imagination in imagery should be as close as possible
to the actual situation. Imagery that fits the motion is
the one that has a kinesthetic sensation from one’s
point of view (internal). PETTLEP is a combination
of components from: Physical, Environment, Timing,
Task, Learning, Emotion, Perspective.
Physical requires imagery to be a physical activity
such as sports (Holmes and Collins, 2001; Wakefield
and Smith 2012). Bringing out kinesthetic sensations
when doing imagery is a way for imagery and motion
to be one. The kinesthetic sensations are helpful when
studying a pattern of motion (Farahat, et al., 2004).
For example, raising a kinesthetic sensation in the
hand when imagining parry movement in karate and
feeling the contracting leg muscles while doing the
stances. In addition to kinesthetic sensations during
imagery, it is also advisable to wear the same clothes
and use objects that are related to the movement being
imagined.
Environment refers to where the imagery takes
place. The place of imagery should be made as similar
as possible with where the exercise is performed.
Video, audio and photos can be used as a tool to help
imagine a place.
Task deals with a specific duty in accordance with
the athlete's skill level, especially regarding the focus
Fajar, M., Saputra, Y. and Mulyana, M.
Imagery Model and Sport Confidence on Karate Kata Motion Skills.
In Proceedings of the 2nd International Conference on Sports Science, Health and Physical Education (ICSSHPE 2017) - Volume 2, pages 111-116
ISBN: 978-989-758-317-9
Copyright © 2018 by SCITEPRESS – Science and Technology Publications, Lda. All rights reserved
111
and concentration. For example, beginner karateka
are more focused to remember the kata motion while
advanced karateka are focused on physical
performance and technique (Bedon and Howard,
1992).
Timing is related to the time completion of the
motion task. To get the equivalence of imagery and
motion function, the speed of movement when
imagining should be the same as the original
movement (real time).
Learning is related to the adaptation of the content
of the imagery toward the learning stages. The
improvement of athletes’ skills from week to week
became the consideration of this concept. The
imagery script in PETTLEP is changed every week to
suit the level of the athletes’ skill.
Emotion. In fact, competition sports is a physical
activity that involves emotions. Therefore imagery
must bring the same emotions with the actual sports
situation. For example, sport targets or raises feelings
of tension while competing.
Perspective in PETTLEP uses internal point of
view. The internal point of view imagines the motion
of our own eyes, whereas the external point of view
illustrated as the athlete imagines seeing himself
exercising. External point of view can be when
athletes watching videos of themselves exercising.
Callow, et al. (2013) proved that the internal point of
view is better than the external point of view in
motion imagery.
Based on the results of the study, the PETTLEP
Imagery model has been tested to improve the
performance of athletes in golf (Smith et al. 2008),
netball (Wakefield and Smith, 2009), muscle strength
(Wright and Smith, 2009) and volleyball (Afrouzeh et
al. Therefore, PETTLEP imagery model should be
tried on karate sports because the writers have not
found any research on PETTLEP imagery model on
karate.
Other than imagery models, the athlete's best
performance is also determined by self-confidence
(Vealey, 1986). There are two main models of
confidence measurements in sport: self-efficacy and
sport-confidence (Callow and Hardy, 2001; Thomas,
et al., 2011). Self-efficacy is a form of self-confidence
in a specific situation that is defined as "Belief's in
one's capabilties to organize and execute the courses
of action required to manage prospective situations."
(Bandura, 1995, p.2). The concept of self-efficacy
arises from the discipline of clinical psychology. Self-
efficacy is not a confidence concept that is specific in
sports, although it is already applied in sports.
Vealey (1986) developed the sport-confidence
that provides a confidence concept that is specified to
sports. Sport-confidence by Vealey (1986) "... as the
belief or degree of certainty individuals possess about
their ability to be successful in sport". Sport-
confidence consists of two concepts: sport-
confidence trait (SC-trait) and state sport-confidence
(SC-state). Trait sport-confidence by Vealey (1986)
"... as the belief or degree of certainty of the people
possessing possess of their ability to be successful in
sport". State sport-confidence by Vealey (1986) "... as
the belief or degree of certainty individuals possess at
one particular moment about their ability to be
successful in sport". It can also be said that the level
of confidence appropriate to the current situation of
the sport and its nature is changeable.
The previous research revealed that sport
confidence is associated with imagery (Moritz, et al
1996, Abma et al. 2002; Callow and Waters, 2005).
Thus, the writers assumed that self-confidence in the
sport greatly determines the performance of the
karateka in doing the kata motion.
A more in-depth review need to be conducted
regarding the application of PETTLEP imagery
models compared to imagery relaxation by grouping
the sample according to confidence level in high and
low sports in advance.
2 METHOD
2.1 Participants
Forty beginners karateka with two-month experience
of exercise. Derived from karate extracurricular of
SMP Daarut Tauhiid Bandung with the age range
from 13-14 years. All participants have never had any
mental imagery training in sports before this.
2.2 Instruments
2.2.1 Sport Imagery Ability Questionnaire
The questionnaire is to obtain information from the
athletes about the ability to produce imaginary
shadows associated with sports. It consists of 15
questions using 7 Likert scales. In accordance with
the previous research, if the sample is below the
standard then the sample is not included in the study
(Cumming and Williams, 2014).
2.2.2 Vealey Trait Sport Confidence
Inventory (1986)
The questionnaire is to assess the level of confidence
in the sport. It consists of 13 items of questions using
ICSSHPE 2017 - 2nd International Conference on Sports Science, Health and Physical Education
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9 Likert scales. The value of 1 to answer the lowest
confidence and 9 to answer the highest confidence.
2.2.3 WKF Kata and Kumite Competition
Rules Revision 9.0.
The instrument in this research is a series of kata
motion test based on the assessment criteria of WKF
Kata and Kumite Competition Rules Revision 9.0.
(2015). There are 3 main assessments of equal
weight. Compatibility with original form and
applicable standards, technical performance, and
athletic performance. Each one has a weight of 1/3
rating.
2.4 Procedure
The samples worked on Sport Imagery Ability
Quistionare, Trait Sport Confidence Inventory and
Pretest karate.
Trait Sport Confidence Inventory results are used
to divide the sample into a high and low confidence
groups. To divide the high and low confidence used a
median split method based on the results of the
questionnaire sorted by the highest and lowest score
then divides the two into high and low categories
(Mills, et al. 2000).
The specified sample is divided into four groups
based on the trait sport confidence inventory
questionnaire, ie a) the group of high sport confidence
students is given PETTLEP imagery (n = 10), b) the
group of low sport confidence students is given
PETTLEP Imagery (n = 10), c) the group of high
sport confidence students is given Relaxation
imagery (n = 10) and d) group of low sport confidence
students are given Imagery Relaxation (n = 10).
Samples are requested not to conduct additional
exercises outside of a predefined schedule. Based on
literature references (Wakefield and Smith, 2009;
Schuster, et al. 2011), the treatment in this study was
given four times a week for 16 meetings. The imagery
treatment is given at most 17 minutes. Both groups
got imagery before physical exercise begins.
Imagery relaxation starts the imagery with
relaxation and the script on imagery relaxation in the
form of motion assignment and there was no change
of script from the beginning to the end. The samples
positions in this group sat quietly and relax.
PETTLEP imagery uses 7 elements (physical,
environment, timing, task, learning, emotion,
perspective). The position of the body stands and was
instructed using a kinesthetic (physical) sensation
from an internal point of view. The samples were also
instructed to imagine the clothes worn like a karate
uniform and belt. The samples imagined themselves
standing in the middle of the hall (environment) and
felt the feeling when the all eyes are watching him
doing the kata (emotion). The script was changed and
adjusted to the ability of the sample (learning). The
specific motion task consists of 21 motions and
adjusted to the actual motion tempo (task, timing).
After 16 sessions, the samples performed a
posttest of the kata karate. The data was analyzed
using SPSS 23 and given conclusion.
3 RESULTS
The research data (kata) was analyzed by 2 ways
anova and tukey with the help of SPSS 23. Here is the
summary of the result of calculation in table 1:
Table 1: Data results.
Confidence
(B)
Model Imagery (A)
PETTLEP
Imagery
relaxation
High
Confidence
49,6
34,7
Low
Confidence
42,3
37,9
Average
45,9
36,3
Since the value of Sig. is smaller (<) than α
(0.040> 2.024), then H
0
is rejected and H
1
is accepted.
So the research hypothesis stated: There is a
significant difference between the PETTLEP imagery
model and the imagery relaxation model received at
the level of significance α = 0.05.
Since the value of Sig. is larger (>) than α (0.248>
0.05), then H
0
is accepted and H
1
is rejected. So the
research hypothesis states: There is no interaction
between 'model imagery' and 'confidence' to the skills
of the word received at the level of significance α =
0.05.
Because the value of Sig. is larger (>) than α
(0.108> 0.05), then H
0
is accepted and H
1
is rejected.
So the research hypothesis states: There is no
significant difference between the model PETTLEP
imagery with imagery relaxation model in the group
of high sport confidence received at the level of
significance α = 0.05
Because the value of Sig. is larger (>) than α
(0.905> 0.05), then H
0
is accepted and H
1
is rejected.
So the hypothesis of research that states: There is no
significant difference between the PETTLEP imagery
model with the imagery relaxation model in the group
of low sport confidence received at the level of
significance α = 0.05.
Imagery Model and Sport Confidence on Karate Kata Motion Skills
113
4 DISCUSSION
The PETTLEP imagery model is better than the
imagery relaxation model toward the kata motion
skill in karate. The results of this study filled the void
of literature on PETTLEP imagery in karate kata
motion while supporting the PETTLEP imagery
theory which says that the imagination in PETTLEP
is closer to the actual state of sport (equivalence of
function) than imagery relaxation (Holmes and
Collins, 2001).
Holmes and Collins (2001) says "We define motor
imagery as a force generating representation of the
self in action from a first person (internal) perspective
(Jeannerod, 1997). The primary representational
sense is kinesthesis". Kinesthetic sensations and
internal point of view are the principal in sports
imagery to get imaginations that are similar to the
actual motion. Physical elements in PETTLEP
require the position of the karateka to stand and feel
each imagination by giving a kinesthetic sensation. In
contrast to the imagery relaxation on which the
relaxation was first given to the karateka and
performed with a relaxed sitting position. The results
of the research invisibly show the imagery relaxation
group faced difficulty in determining the step and
hand motion patterns of kata. For example, imagery
relaxation groups made more mistakes than the
PETTLEP group on motion 10 and 18 in kata heian
shodan. This is due to the motions are rather
complicated and require direct practice to learn.
PETTLEP imagery imagines feeling the same muscle
contraction as actual kata motion, making the
imagination clearerthan just imagining while sitting
relaxly.
The environment in PETTLEP gives the
imagination of where kata takes place. The stimulus
script and response prepositions were used to provide
stimuli and something felt by the karateka when
imaginating (Lang, 1979). So when the karateka
practiced kata in the actual place, they already feel
familiar and not confused with kata step pattern
(embusen). In contrast to the imagery relaxation
group scripts that were not provided with the place to
perform kata, some karateka were seen using places
to memorize the kata motion. Therefore, when the
place changes, the direction of the embusen became
wrong.
Timing, Task and Learning were adjusted to the
karateka’s level of ability. The script at the initial
meeting was made with slow-motion directives and
detailed instructions. So the karateka can memorize
every kata motion easily. The karateka in the second
week seemed to have memorized the skill. To adjust
the tempo (timing) of the imagery script, the details
of the task direction were minimized and directions
for quick motions were given. The script in the third
week was made with short instructions to keep up
with the tempo of kata motion and instruction to use
speed and power to parry or hitting were added.
The emotion factor added in the PETTLEP script
was in the form of self-confidence displaying the kata
motion in front of his classmates. To display the kata
motion well requires high confidence, because one of
the judgments for kata is a facial expression that is a
reflection of the karateka's emotional behaviour.
This study is in accordance with previous research
which concluded that PETTLEP is better than
imagery relaxation in improving sports performance
(Afrouzeh, 2013; Wright and Smith, 2009; Smith et
al. 2008).
The results showed the PETTLEP imagery model
was better than the imagery relaxation toward
karate’s kata motion skill in the high confidence
students group. Vealey (1986) stated that confidence
"... as the belief or degree of certainty individuals
possess about their ability to be successful in sport".
This can be interpreted as a belief or a level of
confidence a person has about his ability to succeed
in sports. If the confidence is high, then the resulted
sports performance will be high. Added with
PETTLEP imagery supplements that provide more
imaginative equality with real motion than the
imagery relaxation.
The results are consistent with earlier research
findings which found out that high confidence was
better than low confidence in imagination abilities
(Abma et al. 2002, Moritz et al., 1996).
The results showed that there were differences in
average values between the PETTLEP imagery
model and imagery relaxation in the high confidence
group, but there was no difference in the average
value between the PETTLEP imagery model and the
imagery relaxation in the low confidence group. This
is allegedly because the low confidence group lacks
clarity of imagination in itself, as revealed by the
results of the study Abma, et al. (2002) who found
that confidence affects clarity when doing imagery.
The higher the confidence the better imagination
made, and vice versa. The results of this study prove
the theory of Ahsen (1984) which stated that
everyone has a different interpretation of meaning
when given the direction of the same imagery script.
This happens to high and low confidence groups who
were given the same PETTLEP but have different
effects. In addition, low confidence also affects the
performance of the sport.
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5 CONCLUSIONS
The PETTLEP imagery model is better than the
imagery relaxation model toward karates kata
motion skills but the imagery model does not interact
with the high and low level of sport confidence
attached to the subject so it had no effect on the
karate’s kata motion skill, where the PETTLEP
imagery model is better than imagery relaxation
models in high sport confidence groups and low sport
confidence groups.
Based on the results of research and conclusions
that have been presented, the writers propose
recommendations in the hope that it can be beneficial
to all interested parties. The recommendations that
the writers propose are as follows: For schools, to
provide guidance on physical education teachers and
karate coaches to provide imagery model
supplements in learning physical education and sports
in extracurricular so that learning objectives can be
achieved. For karate coaches, to provide PETTLEP
imagery supplements for learning purposes to be
achieved. In addition, to look for prospective athletes
by considering the personality such as confidence in
order to find the best potential athletes in the future.
For the students, to get maximum results from sports
performance, physical and techniques training are
required. Moreover, other than physical exercise,
mental training is also required to be trained. For the
next researchers, it is expected to develop the research
and fill the void of literature that will add to the
repertoire of sports science.
REFERENCES
Abma, C. L., Fry, M. D., Li, Y., Relyea, G., 2002.
Differences in imagery content and imagery ability
between high and low confident track and field athletes.
Journal of Applied Sport Psychology, 14(2), pp.67-75.
Afrouzeh, M., Sohrabi, M., Taheri, H. R., Gorgin, F.,
Mallett, C., 2013. Effect of PETTLEP imagery training
on learning of new skills in novice volleyball players.
Life Science Journal, 10.
Ahsen, A., 1984. ISM: The Triple Code Model for imagery
and psychophysiology. Journal of mental imagery.
Bandura, A. ed., 1995. Self-efficacy in changing societies.
Cambridge university press.
Bedon, B. G., Howard, D. V., 1992. Memory for the
frequency of occurrence of karate techniques: A
comparison of experts and novices. Bulletin of the
Psychonomic Society, 30(2), pp.117-119.
Callow, N., Roberts, R., Hardy, L., Jiang, D., Edwards, M.
G., 2013. Performance improvements from imagery:
evidence that internal visual imagery is superior to
external visual imagery for slalom performance.
Frontiers in human neuroscience, 7.
Callow, N., Hardy, L., 2001. Types of imagery associated
with sport confidence in netball players of varying skill
levels. Journal of Applied Sport Psychology, 13(1),
pp.1-17.
Callow, N., Waters, A. 2005. The effect of kinesthetic
imagery on the sport confidence of flat-race horse
jockeys. Psychology of Sport and Exercise, 6(4), 443-
459.
Eklund, R. C., Tenenbaum, G. eds., 2014. Encyclopedia of
sport and exercise psychology. Sage Publications.
Farahat, E. M. A. N., Ille, A. N. N. E., Thon, B. D. R. N. A.
R. D., 2004. Effect of visual and kinesthetic imagery on
the learning of a patterned movement. International
Journal of Sport Psychology, 35, pp.119-132.
Gray, S. W., Fernandez, S. J., 1989. Effects of visuo-motor
behavior rehearsal with videotaped modeling on
basketball shooting performance. Psychology: a
journal of human behavior.
Holmes, P. S., Collins, D. J., 2001. The PETTLEP approach
to motor imagery: A functional equivalence model for
sport psychologists. Journal of Applied Sport
Psychology, 13(1), pp.60-83.
Lang, P. J., 1979. A bioinformational theory of emotional
imagery. Psychophysiology, 16(6), pp.495-512.
Moritz, S. E., Hall, C. R., Martin, K. A., Vadocz, E., 1996.
What are confident athletes imaging?: An examination
of image content. The Sport Psychologist, 10(2),
pp.171-179.
Mills, K. D., Munroe, K. J., Hall, C. R., 2000. The
relationship between imagery and self-efficacy in
competitive athletes. Imagination, Cognition and
Personality, 20(1), pp.33-39.
Schuster, C., Hilfiker, R., Amft, O., Scheidhauer, A.,
Andrews, B., Butler, J., Kischka, U., Ettlin, T., 2011.
Best practice for motor imagery: a systematic literature
review on motor imagery training elements in five
different disciplines. BMC medicine, 9(1), p.75.
Smith, D., Wright, C. J., Cantwell, C., 2008. Beating the
bunker: The effect of PETTLEP imagery on golf
bunker shot performance. Research quarterly for
exercise and sport, 79(3), pp.385-391.
Suinn, R. M., 1972. Removing emotional obstacles to
learning and performance by visuo-motor behavior
rehearsal. Behavior Therapy, 3(2), pp.308-310.
Thomas, O., Lane, A., Kingston, K., 2011. Defining and
contextualizing robust sport-confidence. Journal of
Applied Sport Psychology, 23(2), pp.189-208.
Vealey, R. S., 1986. Conceptualization of sport-confidence
and competitive orientation: Preliminary investigation
and instrument development. Journal of sport
psychology, 8(3), pp.221-246.
Wakefield, C. J., Smith, D., 2009. Impact of differing
frequencies of PETTLEP imagery on netball shooting
performance. Journal of imagery research in sport and
physical activity, 4(1).
Wakefield, C., Smith, D., 2012. Perfecting practice:
Applying the PETTLEP model of motor imagery.
Journal of Sport Psychology in Action, 3(1), pp.1-11.
Imagery Model and Sport Confidence on Karate Kata Motion Skills
115
Wakefield, C., Smith, D., Moran, A. P., Holmes, P., 2013.
Functional equivalence or behavioural matching? A
critical reflection on 15 years of research using the
PETTLEP model of motor imagery. International
Review of Sport and Exercise Psychology, 6(1), pp.105-
121.
Weinberg, R. S., Seabourne, T. G., Jackson, A., 1981.
Effects of visuo-motor behavior rehearsal, relaxation,
and imagery on karate performance. Journal of Sport
Psychology, 3(3), pp.228-238.
Weinberg., Gould., 2011. Foundation of Sport and Exercise
Psychology 5
th
edition. USA: Human Kinetics.
Williams, S. E., Cumming, J., 2011. Measuring athlete
imagery ability: the sport imagery ability questionnaire.
Journal of Sport and Exercise Psychology, 33(3),
pp.416-440.
Williams, S. E., Cumming, J., 2014. The Sport Imagery
Ability Questionnaire Manual. Birmingham, UK:
Author.
WKF Rule of competition., 2015.
Wright, C. J., Smith, D., 2009. The effect of PETTLEP
imagery on strength performance. International
Journal of Sport and Exercise Psychology, 7(1), pp.18-
31.
Zervas, Y., Kakkos, V., 1991. Visuomotor behavior
rehearsal in archery shooting performance. Perceptual
and motor skills, 73(3_suppl), pp.1183-1190.
ICSSHPE 2017 - 2nd International Conference on Sports Science, Health and Physical Education
116