Depohar 50 TNI AU is a unit in the maintenance of the Alutsista Air Force Radar. Soldier practice in the Depohar 50 unit is always carried out even though shooting exercises are carried out several times a year, resulting in a low average score. This study involved five soldiers with a standing shooting position and using SS1-V1 weapons. Each soldier fires three shots and the firing time is counted for 3 minutes with a target distance of 100 meters. A quantitative method was applied in this experimental study to measure the recoil effect when the stock of the weapon hit the soldier's shoulder. The stock of the weapon is coated with a pad; in this section a force sensitive resistor sensor (FSRS) is installed to measure the recoil effect due to weapon fire. A recoil effect resulting in reduced weapon stability. Assistive technology or better known as a recoil pad is a necessary tool to help maintain weapon stability. This step is to identify the need for recoil pads that have the potential to use the developed material. Three commercially available recoil pads are tested for their ability to absorb the stresses of impact forces during an explosion. The result can increase the stability of the weapon when a soldier is practicing shooting and increase the average target hit rate.

1.
Keputusan
Kasau
No
19
tahun 2019, “
Organisasi dan Tugas DEPOHAR 50, Depo Pemeliharaan 50 (Depohar 50) adalah satuan pelaksana pemeliharaan di bawah Komandan Koharmatau bertugas melaksanakan pemeliharaan tingkat berat peralatan radar TNI Angkatan Udara, pembinaan personel spesialis radar dalam rangka pemeliharaan on site dan off site, maupun menyelenggarakan kesiapan test bench
,” (
2019
).
2.
Peraturan Kasau Nomor
Perkasau
/123/XII/2010. “
Pokok-Pokok Organisasi dan Prosedur Jajaran Koharmatau
.” 22 Desember
2010
.
3.
Keputusan Kasau
Nomor
Kep/4/III/1999. “
Pokok-pokok Organisasi dan Prosedur Komando Pemeliharaan Materiel TNI AU (Koharmatau) mengalami perubahan khususnya pada tingkat pelaksana
.” (
1999
)
4.
Depohar 50
. “
Program Kerja dan Anggaran TA. 2020. Peraturan Menteri Pertahanan Republik Indonesia Nomor 28 Tahun 2016 Tentang Sistem Program Dan Anggaran Pertahanan Negara
”,
2020
5.
Depohar 50
. “
Nilai menembak menggunakan senjata SS1-V1 Semester 1 Tahun Anggaran
.”
2020
, (
2021
)
6.
Kasau
.
Kurikulum Pendidikan Tamtama Prajurit Karier TNI AU
, (
2020
).
7.
KKIP. Komite Kebijakan Industri Pertahanan
. (
2021
, July 1). “
Senjata Laras Panjang
”. Accessed on July 1, 2021 from https://www.kkip.go.id/project/ss1-v1-kal-556-mm/
8.
J.L.
Berna-Moya
and
D.
Martinez-Plasencia
,
Exploring the effects of replicating shape, weight and recoil effects on VR shooting controllers
.
INTERACT 2019: 17th IFIP TC.13 International Conference on Human-Computer Interaction
,
Paphos, Cyprus
, 2-6 September
2019
.
9.
G.
Sattlecker
,
M.
Buchecker
,
C.
Gressenbauer
,
E.
Müller
, and
S.J.
Lindinger
Factors, Discriminating High From Low Score Performance in Biathlon Shooting
.
International Journal of Sports Physiology and Performance.
(
2017
)
12
(
3
), pp.
377
384
.
10.
K.
Mononen
,
N.
Konttinen
,
J.
Viitasalo
and
P.
Era
,
Relationships between postural balance, rifle stability and shooting accuracy among novice rifle shooters
.
Scand. J. Med Science Sports
, (
2007
)
17
, pp.
180
185
.
11.
M.
Igendia
(
2015
).
Fluctuations in muscle strength, shooting accuracy and serum hormone concentrations in conscripts during a 3-week combat training period
. Accessed on July 1, 2021 from https://jyx.jyu.fi/bitstream/handle/123456789/48000/1/URN%3ANBN%3Afi%3Ajyu-201512073919.pdf.
12.
O.
Tommi
,
K.
Heikki
,
I.
Mikael
,
H.
Keijo
,
Effect of Prolonged Military Field Training on Neuromuscular and Hormonal Responses and Shooting Performance in Warfighters
.
Military Medicine
, (
2018
)
1
, pp.
1
8
.
13.
S.
Dorota
,
K.
Justyna
,
K.
Andrzej
,
Postural balance and rifle stability in a standing shooting position after specific physical effort in biathletes
,
Journal of Sports Sciences
, (
2019
)
37
(
52
), pp.
1
7
.
14.
I.
Simo
,
S.L.
Marko
,
K.
Sami
,
L.
Antti
,
M.
Jussi
,
S.L.
Josef
,
L.
Vesa
,
Technical determinants of biathlon standing shooting performance before and after race simulation
,
Scandinavian Journal of Medicine & Science in Sports
, (
2018
)
6
, pp.
1700
1707
.
15.
D.A.
Harris
and
I.R.
Spears
,
The effect of rugby shoulder padding on peak impact force attenuation
.
British Journal of Sports Medicine
, (
2010
)
44
(
3
), pp.
200
203
.
16.
Assistive Technology
. (
2021
, July 1).
Exoskeleteon, teknologi masa depan yang multi-fungsi
. Accessed on July 1, 2021 from https://metalextra.com/exoskeleteon-teknologi-masa-depan-yang-multi-fungsi/
17.
A.L.
James
and
L.P.
Victor
,
A Review of Conceptual Models for Assistive Technology Outcomes Research and Practice
,
Assistive Technology: The Official Journal of RESNA
, (
2003
)
15
(
1
), pp.
1
15
.
18.
N.
Linda
,
M.J.
Maia
,
L.
Hennen
,
G.
Wolbring
,
T.
Bratan
,
P.
Kukk
,
J.
Cas
,
L.
Capari
,
J.
Krieger-Lamina
,
E.
Mordini
,
Assistive technologies for people with disabilities - Part II: Current and emerging technologies
.
2018
.
19.
W.H.
Harper
,
P.H.
Ellis
,
W.E.
Hanlon
,
R.P.
Merkey
, The Effects of recoil on shooter performance.
U.S. Army Research Laboratory
.
Human Research & Engineering Directorate
, (
1996
).
20.
A.
Saxena
,
M.
Dixit
,
M.
Rashid
,
S.C.
Nigam
,
S.K.
Singh
,
The study of Recoil Reducing Compact Air Pressure Device (CAPD
).
IOP Conf. Series: Materials Science and Engineering
1104
(
2021
), pp.
1
9
.
21.
A.C.
Sari
and
B.
Harsono
,
Rancang Bangun Alat Pengukur Berat dan Dimensi Paket Berbasis Arduino Mega2560
.
Jurnal Elektro
, (
2017
)
10
(
2
), pp.
107
116
.
22.
Kementerian Kesehatan
RI
. “
Pedoman dan Standar Etik Penelitian dan Pengembangan Kesehatan Nasional. Komisi Etik Penelitian Dan Pengembangan Kesehatan Nasional
.”
2017
.
23.
J.H.
Matthew
,
Measuring felt recoil of sporting arms
,
International Journal of Impact Engineering
(
2008
),
35
(
6
), pp.
540
548
.
24.
A.
Nieuwenhuys
and
R.R.D.
Oudejans
,
Anxiety and perceptual-motor performance: toward an integrated model concepts, mechanisms, and processes
.
Psychological Research
, (
2012
).
76
(
6
), pp.
747
759
.
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