Development of Integration Audit on Integrated Management System
in Order to Increase Organizational Performance of Construction
Company
Ringgy Masuin
1
, Yusuf Latief
2
and T. Yuri Zagloel
3
1
Doctoral Program, Civil Department, 16424 University of Indonesia, Indonesia
2
Professor, Civil Department, 16424 University of Indonesia, Indonesia
3
Professor, Industrial Engineering Department, 16424 University of Indonesia, Indonesia
Keywords: Integration Audit, Integrated Management System, Organizational Performance, Construction Company.
Abstract: Organizations can used various management practices in innovation and gain competitive advantage.The
integrated management system is ultimately seen as an effective tool in optimizing organization
performance in implementing management construction projects of construction company. To achieve
performance of organization, organization need to ensure that their process doing well, so we need an audit
system. Several studies has been concern in audit of integrated management system, but their clauses is still
in individual systemmanagement (quality, health and safety, and environment). In this studies we will focus
on audit integration consist of audit checkpoint integrated management system between quality, health &
safety, environment in only 7 HLS (High Level Structure) clauses of 10 HLS clauses ISO:2015. For that
purpose, author used descriptive analytical approach, wherewe tried to showing the most important ideas
used questionnaire in multiple company and analysis variable used in integration audit with RII. As a result,
leadership is the highest weight to consider in integration audit through integrated management system.
1 INTRODUCTION
Every construction company has to implement
management system in order to increase their
organization performance. To implement a
Management System Standard (MSS), organizations
must establish processes that meet previously
designed objectives and requirements. Therefore a
system audit processes and requirements are
necessary to ensure implementation in the
organization process is doing well (Neppach, Nunes
and Schebek, 2017). Full audit integration requires
the establishment of a single audit system in all
functions and has a complete incorporation of all
cross-functional, process, and resource objectives
(Bernardo et al. 2009; Karapetrovic and
Rosenbloom, 1999).
The quality of organizational performance is not
only determined on the final product of work, but
the process of achievement becomes important
(Latief and Utami, 2009). Strict supervision of the
quality management system will produce excellent
and quality products in accordance with agreed upon
specifications at the project planning stage (Lenhardt
and Beck, 2016). During reengineering, it is very
important to write what has been done. Furthermore,
written text is one pattern that can support the
understanding of software: encode assumptions in
text and check whether the tests fail or succeed
(Demirkesen and Ozorhon, 2017).
Organizations, that have integrated management
systems, must have a certain extent expected to
conduct internal audits intensified to some extent,
since internal audit is a subsystem of the entire
management system (Bernardo, Casadesus, and
Karapetrovic, 2010). If an organization has more
than one management system, internal audit can be
integrated as a means to optimize resources
(Bernardo et al. 2015). The audit process includes:
planning, execution, report writing and follow-up
corrective actions or improvements required (Simon
et al. 2012). Audit is the most important part to
ensure the organization performance running well
(Latief and Utami, 2009).
Several researches look forward for audit in
integrated management system. Application of
594
Masuin, R., Latief, Y. and Zagloel, T.
Development of Integration Audit on Integrated Management System in Order to Increase Organizational Performance of Construction Company.
DOI: 10.5220/0008891005940602
In Proceedings of the 7th International Conference on Multidisciplinary Research (ICMR 2018) - , pages 594-602
ISBN: 978-989-758-437-4
Copyright
c
2020 by SCITEPRESS – Science and Technology Publications, Lda. All rights reserved
integrated management system (SMM and SMK3L)
in construction companies in Indonesia had been
applied to construction contractor BUMN companies
and construction management (Wibowo and
Waluyo, 2015), but net yet explore about integration
audit that can establish the implementation of
integrated management system in construction
company. Therefore research question in this
research are:
1. What variable in integration audit are most
important to improve organization performance
through integrated management system
Construction Company?
2. How does integration audit effect organization
performance through integrated management
system in Construction Company?
2 LITERATURE REVIEW
2.1 Literature Review
In recent years, the standard of management system
(MSS) that is appropriate to be applied in many
organizations has become a central part for
continuous improvement and business excellence
(Lo Lacono Ferreira, Capuz Rizo, and Torregrosa
Lopez, 2018). Implementation The ISO 9001 and
ISO 14001 management system (MSS) standards are
one of the most commonly used management
practices (Bernardo et al. 2009). The implementation
of the management system in the Republic of
Indonesia is mainly related to the practice of
construction projects based on the laws and
regulations that have been issued by the government
of the Republic of Indonesia. Indonesian legislation
addressing the quality and environmental
management system has been published since 2009,
while the regulation on occupational health and
safety was published in 2012. The regulation is
Government Regulation No.50 of 2012 on Quality
Management System (QMS), Regulation of the State
Minister of Environment No.31 of 2009 on
Environmental Management System (EMS), and
Regulation of Minister of Public Works no. 5 Year
2014 on the implementation of Occupational Safety
and Health Management System (OHSAS).The
implementation of different management systems
has the potential to create conflicts between
management systems, management system
integration is expected to minimize conflict between
management systems (Ferreira et al. 2016). At this
time, many organizations have chosen to implement
Integrated Systems Management (IMS) covering
ISO 9001, ISO 14001 and OHSAS 18001 as an
alternative to optimizing efforts and resources
(Sampaio and Arezes 2014)(Oliveira et al. 2018).
The Integrated Management System (IMS)
integrates all organizational systems and processes
into a complete framework, allows an organization
to work as a whole with an integrated goal to
achieve its goals and mission (Mourougan, 2015).
2.2 Integration Audit
Audits are defined in the ISO 19011: 2011 and ISO
9000: 2005 standard "Systematic, independent and
documented process for obtaining audit evidence
and evaluating objectively to determine the extent to
which audit criteria are met" (ISO, 2005, 2011).
According to the same standards, internal audits are
conducted by, or on behalf of, the organization itself
for management review and other internal purposes,
and may form the basis for the assertion that the
organization meets conformity (ISO, 2005, 2011).
External audits is held by second parties who have
an interest in the organization, such as customers, or
others in the company and external third parties such
as independent audit organizations and such as
certify (ISO, 2005, 2011).
The research on integration of audit in system
management integration starts from Simon's
research (2012) studying the integrated management
system model through example about the stages,
strategies, advantages and organizational challenges
in implementing the integration of management and
audit system. Different management system audits
for the same process are proving complex (Bernardo
et al. 2017 and Simon et al. 2012). Therefore, it is
better to have integration audit to optimize cost and
time (Mourougan, 2015). High levels of MS audit
integration, leading to more synergy and
effectiveness in auditing (Bernardo et al. 2009).
Research on audit integration practices from
management system standards is very limited. A
very helpful study of the authors is a study
conducted by (Mourougan, 2015) using the literature
review method, which provides integrated audit
system planning steps and checkpoint audits
consisting of 7 HLS clauses from ISO 9001, ISO
45001, ISO 14001 and ISO 27001. Bernardo et.al.
(2010) conducted a study by conducting a survey of
1615 organizations in Spain using at least ISO 9001
and ISO 14001, the study intends to find out how
organizations that use ISO 9001 and ISO 14001
perform an audit of their management system
(Bernardo et al. 2010). The study divides audit
integration based on variables related to the
Development of Integration Audit on Integrated Management System in Order to Increase Organizational Performance of Construction
Company
595
integration of the audit itself and the variables
associated with the audit methodology. In the study
they provide a structured approach on how to
integrate audits of ISO 9001 and ISO 27001.
Bernardo in his research found that organizations
with a high degree of MS standard integration also
showed more integrated auditing. In addition, the
degree of integration is generally higher for internal
audit than with external auditing (Bernardo et al.
2010; Muzaimi, Chew, and Hamid, 2017; Carvalho
et al. 2015).
Table 1: Novelty of Integration Audit.
Author
Clause of Inte
g
ration Audit Variable of Audit Pro
g
ramme
d
CO LD PL SP OP PE IM SA EA IA MA RA
Mourougan
2015
√ √ √ √ √ √ √ - - - - -
Bernardo et al.
2010
- - - - - - -
√ √ √ √ √
(Forteza,
Carretero-
Gómez, and
Sesé 2017
- - - - - - -
√ √ √ √ √
Simon et al.
2012
- - - - - - -
√ √ √ √ √
Bernardo et al.
2017
- - - - - - -
√ √ √ √ √
Bernardo et al.
2015
- - - - - - -
√ √ √ √ √
Bernardo et al.
2009
- - - - - - -
√ √ √ √ √
Merce et al.
2016
√ - √ - - √ - - √ √ √ -
(Bernardo 2011
√
- √ - - √ - - √ √ √ -
Merad, Dechy,
and Marcel
2014
- - √ - - √ - - √ √ √ -
Sanz-calcedo et
al. 2015
- - √ - - √ - - √ √ √ -
Implementation,
Study, and
Netzwerk 2016
- - √ - - √ - - √ √ √ -
Muzaimi et al.
2017
√ - √ - - √ - - √ √ √ -
Gianni,
Gotzamani, and
Tsiotras 2017
√ - √ - - √ - - √ √ √ -
Nunhes, Motta
Barbosa, and de
Oliveira 2017
√ - √ - - √ - - √ √ √ -
Source: Own Research
Table 1 shown that to audit system management
effectively, it is important to understand the
requirements of international management standards.
A quick review of standards suggests that it is
structured following the TQM movement philosophy
of Plan, Do, Check, Improve. Audit checkpoints for
audit integration include only 7 HLS (High Level
Structure) clauses of 10 HLS Management System
and the variable needed for implementation of audit
program (Mourougan, 2015). 7 HLS clauses that
used in this research are:
A. Organizational Context (CO) clause that
contains:
CO1: Organizations define external and internal
issues of the or
g
anization.
CO2: The organization determines interested
parties relevant to the IMS and determines
the needs and expectations of each
p
art
y
.
ICMR 2018 - International Conference on Multidisciplinary Research
596
CO3: The organization determines the scope of
the IMS (qualit
y
, OSH, and environment).
CO4: The organization establishes, implements,
maintains and continuously improves in
accordance with the requirements of IMS
(qualit
y
, OSH, and environment) .
CO5: Organizations issues relevant to
organizational goals, achieving customer
satisfaction and strategic direction of the
or
g
anization.
B. Leadership (LD) clause variables are:
LD1: Top management takes responsibility and
demonstrates leadership and commitment
with respect to IMS.
LD2: Top management directs and supports
people to contribute to the effectiveness of
IMS.
LD3: Top management establishes policies for
setting IMS (quality, health and safety)
ob
j
ectives.
LD4: IMS policies (quality, OH & S, in the
environment) are available as documented
information.
LD5: The organization establishes and
communicates the responsibility and
authorit
y
.
C. Planning (PL) clause are:
PL1: The organization establishes the risks and
opportunities that need to be addressed.
PL2: Organizations plan actions to address these
risks and opportunities and integrate them
into the IMS business process.
PL3: Organizations develop processes in
mana
g
in
g
the implementation of IMS.
PL4: The organization defines the goals and
ob
j
ectives of the IMS.
PL5: The organization maintains documented
information.
D. Support (SP) consists of:
SP1:
The Organization determines, provides and
maintains the resources needed for the IMS
(including persons, infrastructure and
environmental requirements).
SP2: The organization ensures that people have
competencies.
SP3: The organization ensures that people doing
work under the control.
SP4: The organization determines, provides and
maintains infrastructure for IMS process
operations.
SP5: The organization determines internal and
external communications.
SP6: Organizations define, establish and maintain
the documented information required b
y
IMS standards.
SP7: The organization ensures that the
documented information is always up-to-
date with proper identification, descriptions
and formats.
SP8:
The organization ensures that documented
information can be controlled for
distribution, access, retrieval, storage,
p
reservation, retention and disposition.
E. Operation (OP) contains of:
OP01: The organization ensures that documented
information can be controlled for
distribution, access, retrieval, storage,
p
reservation, retention and disposition.
OP02: The organization ensures that the
established process can handle risks and
opportunities and in accordance in the IMS
(qualit
y
, OSH, and environment).
OP03: The organization ensures that the
established process can handle risks and
opportunities and in accordance with the
policies, legal goals and requirements and
other requirements set forth in the IMS
(qualit
y
, OSH, and environment).
OP04: The organization ensures that third party
processes in relation to IMS (quality, K3,
and environment) controlled.
F. Performance Evaluation (PE) can be described:
PE01: The organization determines what needs to
b
e monitored and measured.
PE02: The organization defines methods to
ensure legitimate results and to analyzing
monitorin
g
and measuremen
t
.
PE03: The organization establishes a method for
the need or opportunity for improvement
in the IMS.
PE04: The organization conducts internal audits
at planned intervals.
PE05: Organizations take action on findings in
the internal audit process and report to top
mana
g
emen
t
.
PE06: The organization maintains documented
information from the results of an IMS
p
erformance evaluation.
G. Improvement (IM) consists of:
IM01: The organization determines and selects
opportunities for improvement as well as
implements necessary actions to meet
customer needs and improve customer
satisfaction.
IM02: The organization implements the
appropriate process to manage the
nonconformities and corrective actions
involved.
Development of Integration Audit on Integrated Management System in Order to Increase Organizational Performance of Construction
Company
597
IM03: The organization decides how it will handle
the need to continuously improve the
suitability, adequacy, and effectiveness of
IMS.
The components used to integrate in table 1 the
audit process of the management system are divided
into two categories namely variables related to
integration and variables associated with the
methodology. Audit components whose integration
is specifically studied are objectives (eg, audit plan),
resources (eg, auditor and audit time) and processes
(eg, audit plan as inputs, methods used in the audit
process, and audit reports as outputs). The
methodology used in the audit is investigated
through questions about audit implementation
methods, applicable audit guidelines, individual
audit frequencies, and reported types of findings
(Bernardo et al. 2010; Bernardo et al. 2017; Simon
and Casadesus, 2014 and Merad et al. 2014) are:
A. Setting Audit Program Objectives (SA) are:
SA1: The planning and execution of the audit and
shall ensure that the audit program is carried
out effectivel
y
.
SA2: The objectives of the audit program must be
consistent and support the policies and
objectives of the STI (quality, OSH, and
environment).
B. Establish an Audit Program (EA)
EA1: The organization defines the roles and
responsibilities of the person who will
manage the audit program as well as the
audit / auditor team.
EA2: The organization determines the competence
of the person managing the audit program as
well as the audit / auditor team.
EA3: The organization selects the person who
manages and is responsible for the audit
p
ro
g
ram.
EA4: The organization establishes the level of the
audit pro
g
ram.
EA5: The organization establishes procedures for
the audit pro
g
ram.
EA6: The organization identifies and evaluates the
risk of the audit pro
g
ra
m
.
EA7: The organization identifies the resources of
the audit pro
g
ram.
C. Implementing the Audit Program (IA) are:
IA1: The organization defines the objectives,
scope, schedule and criteria of the audit
including the auditor's competence and the
auditor's evaluation process.
IA2: The or
g
anization chooses an audit method.
IA3: The organization selects members of the
audit team.
IA4: The organization assigns responsibility for
the audit to the audit team leader.
IA5: The organization manages the results of the
audit pro
g
ram.
IA6: The organization manages and maintains
audit pro
g
ram records.
D. Monitor Audit Program (MA) consists of:
MA1: The organization monitors compliance with
the audit program, schedule and audit
ob
j
ectives.
MA2: The organization monitors the performance
of members of the audit team.
MA3: The organization monitors the ability of the
audit team to implement the audit plan.
MA4:
Organizations monitor feedback from top
management, auditees, auditors and other
interested parties.
E. Reviewing and Improving the Audit Program
(RA) are:
RA1: The organization reviews the audit program
to assess whether its objectives have been
achieved.
RA2: Lessons learned from audit program reviews
should be used as input for ongoing program
improvement processes.
RA3: The organization reviews the overall
implementation of the audit program,
identifies areas of improvement, modifies
the pro
g
ram if necessar
y
.
2.3 Organization Performance
Performance measurement is one very important
factor for a company. During traditional
performance measurement only focus on the
financial side. Managers who achieve a high profit
rate will be considered successful and earn good
rewards from the company. Conversely, poor
financial performance in the short term can occur
due to the company investing in long-term interests.
To overcome this deficiency, then it is created an
audit approach method that measures the
performance of the company by considering four
aspects of financial aspects, customers, internal
business processes and learning and developing
process (Olaru et al. 2014).
Organization performance can improve its
workers productivity. The work productivity of an
organization is strongly influenced by the
productivity of its employees. While employee
productivity is very influenced by factors of
supervision, motivation and an effective work
culture, as well as other factors such as leadership,
education level and so forth. There are some factors
ICMR 2018 - International Conference on Multidisciplinary Research
598
affecting productivity (Simon et al. 2012; Bernardo
et al. 2009; Bernardo et al. 2015 and Adeleke et al.
2017).
3 METHODOLOGY
The research design adopted in this study is
qualitative quantitative research in which the data
are analysed statistically by using RII method and
basic statistic. Respondents are the 20 employees of
construction company workers in Jakarta
Construction Company. These respondents were
choosing because construction company worker in
Jakarta have high risk accident/death accident.
Characteristic of respondents are 10% worker handle
more than 30 project of construction, 40% worker
handle 10 – 30 project of construction, and 50%
worker handle less than 10 project of construction.
10% of the worker works for under 5 years in
construction company, 45% works for 5 – 10 years,
and 45% works more than 10 years in construction
company.
These data is in the form of questionnaire. The
score is obtained by weight in each questionnaire.
As we are having RII method to configure variable
is most important in integration audit, we consider to
have normalization of matrix and priority first in
table 1. After we are consider that weight that used
in this paper are normal, so we concluded weight
that used for integration audit in integration
management system variable in table 2.
Table 2: Normalization of Matrix And Priority.
Strongly
Agree
Agree
Neutral
Not Agree
Strongly
Disagree
Stron
gly
Agree
1 3 5 7 9
Agree 0.33 1 3 5 7
Neutr
al
0.20 0.33 1 3 5
Not
Agree
0.14 0.20 0.33 1 3
Stron
gly
Disag
ree
0.11 0.14 0.20 0.3 1
1.787 4.676 9.533
16.33
3
25.00
0
From the normalization part, we found that weight
used for quantitative research is shown in table 3.
Table 3: Normalization of Matrix and Priority.
Strongly
Agree
Agree Neutral
Not
Agree
Strongly
Disagree
Weight 1.000 0.535 0.274 0.141 0.068
Table 3 shown weight that used in this paper are
0.068 for strongly disagree, 0,141 for not agree,
0,274 for neutral, 0.535 for agree and 1.000 for
strongly agree. That weight used in table 4.
Table 4: Results RII of Integration Audit.
Var
Strongly Agree
Agree
Neutral
Disagree
Strognly Disagree
Total
Weight
KO1 50 24 9 0 0 61.1 3.21
KO2 40 36 3 2 0 51.2 2.69
KO3 45 36 3 0 0 56.2 2.96
KO4 40 40 3 0 0 52.2 2.75
KO5 45 28 9 0 0 57.1 3.01
LD1 75 12 3 0 0 79.8 4.20
LD2 60 24 0 2 0 66.4 3.50
LD3 60 28 0 0 0 67.5 3.55
LD4 35 44 3 0 0 48.3 2.54
LD5 45 36 0 2 0 54.6 2.87
PL1 45 36 3 0 0 56.2 2.96
PL2 45 40 0 0 0 55.7 2.93
PL3 35 44 3 0 0 48.3 2.54
PL4 50 36 0 0 0 59.6 3.14
PL5 50 36 0 0 0 59.6 3.14
SP1 50 28 3 2 0 59 3.11
SP2 40 40 3 0 0 52.2 2.75
SP3 40 36 6 0 0 52.7 2.77
SP4 25 52 3 0 0 40.4 2.13
SP5 35 44 3 0 0 48.3 2.54
SP6 30 48 3 0 0 44.4 2.34
SP7 35 44 3 0 0 48.3 2.54
SP8 40 44 0 0 0 51.7 2.72
OP1 50 36 0 0 0 59.6 3.14
OP2 50 32 3 0 0 60.1 3.16
OP3 35 44 0 2 0 46.7 2.46
OP4 50 32 3 0 0 60.1 3.16
PE1 40 40 3 0 0 52.2 2.75
PE2 35 44 3 0 0 48.3 2.54
PE3 30 48 0 2 0 42.8 2.25
PE4 45 40 0 0 0 55.7 2.93
PE5 45 40 0 0 0 55.7 2.93
PE6 35 40 3 0 0 47.2 2.49
IM1 45 32 6 0 0 56.7 2.98
Development of Integration Audit on Integrated Management System in Order to Increase Organizational Performance of Construction
Company
599
IM2 30 48 3 0 0 44.4 2.34
IM3 48 30 3 0 0 57.6 3.03
As mention in table 4, leadership is the highest
weight for integration audit content variables.
Table 5: Score of Group B (Physical Class).
Var
Strongly Agree
Agree
Neutral
Disagree
Strognly Disagree
Total
Weight
SA1 55 24 6 0 0 64.5 3.40
SA2 45 40 0 0 0 55.7 2.93
EA1 40 40 0 2 0 50.7 2.67
EA2 40 40 3 0 0 52.2 2.75
EA3 35 40 0 4 0 45.7 2.40
EA4 35 36 6 2 0 47.7 2.51
EA5 35 48 0 0 0 47.8 2.52
EA6 45 40 0 0 0 55.7 2.93
EA7 35 48 0 0 0 48 2.52
IA1 30 44 6 0 0 45 2.36
IA2 25 44 6 2 0 40 2.10
IA3 30 40 3 4 0 42 2.22
IA4 35 40 3 2 0 47 2.49
IA5 40 36 6 0 0 53 2.77
IA6 45 32 6 0 0 57 2.98
MA1 40 36 6 0 0 52.7 2.77
MA2 40 40 3 0 0 52.2 2.75
MA3 40 36 6 0 0 52.7 2.77
MA4 50 32 3 0 0 60.1 3.16
RA1 5 36 3 0 0 56.2 2.96
RA2 40 40 3 0 0 52.2 2.75
RA3 45 36 3 0 0 56.2 2.96
So, in table 5 we found that setting programme
audit objectives is highest weight in variable of audit
programme
3.1 Data Normality Test
Data normality test is utilized to see the distribution
of the data. In other words, it is to know that the data
are normally distributed. To see the chart of the
normal distribution of the data, the researcher adopts
the method of Normal Probability Plots in testing the
data for both groups. The followings are the charts
that show the normal distribution of the data of the
two groups in this research. The data distribution is
normal because the data spread around the diagonal
line of the chart.
Figure 1: Data distribution of Integration Audit.
To see the normal distribution of the data from
the Constanta value or Asymp.sig value, the
researcher adopts the method of Kolmogorov-
Smirnov Z. Both data show that the Asymp.sig value
are larger than 0.05, then the data are distributed
normally. The Asymp.sig value of of integration
audit is .757 and .989
Table 6: Validation of Integration Audit.
N 19
Normal
Parameters
a,b
Mean 4.35
Std.
Deviation
1.811
Most Extreme
Differences
Absolute .154
Positive .154
Ne
g
ative -.103
Kolmo
g
orov-Smirnov Z .672
A
s
y
m
p
. Si
g
.
(
2-tailed
)
.757
Then, the data are calculated by using Wilcoxon
Signed Ranked Test because the data in this research
is non-parametric data (Prasetyo, 2014).
4 ANALYSIS
Not all studies will have a hypothesis for tested. For
research that is an exploration a theory that has not
significant and small or absent studies research, it is
impossible to draw a hypotheses. For achieve
research objectives in this type of research, we used
a research question that is based on literature review.
ICMR 2018 - International Conference on Multidisciplinary Research
600
4.1 Mean
Using equation formula of mean as follow:
(1)
We found that µ = 4.358. It means that
respondent are agree with all variable require in this
research.
4.2 Validation
It can be concluded that there is no difference in
perception of answers. Based on results of the
validation of content and constructs in research
methodologies we find that there were 7 clauses are
valid for audit content and 5 variables are valid for
audit programme. Clauses used for audit content are
organizational context (CO), leadership (LD),
planning (PL), support (SP), operation (OP),
performance evaluation (PE), and improvement
(IM). Variable of audit programme consist of setting
audit program objective (SA), establish an audit
program (EA), implementing the audit program (IA),
monitor audit program (MA), reviewing and
improving the audit program (RA).
4.3 Results of RII
As we are having valid variable for measure, so next
we will find most variable important in integration
audit, we consider to have normalization of matrix
and priority first as shown in table 3. There were
some variable that have highest weight LD1 is the
highest weight (4.20), than LD3 (3.55), LD2 (3.50)
and SA1.
5 CONCLUSION
Clauses used for audit contact are organizational
context (CO), leadership (LD), planning (PL),
support (SP), operation (OP), performance
evaluation (PE), and improvement (IM). Variable of
audit programme consist of setting audit program
objective (SA), establish an audit program (EA),
implementing the audit program (IA), monitor audit
program (MA), reviewing and improving the audit
program (RA). There were some variable that have
highest weight LD1 is the highest weight (4.20),
than LD3 (3.55), LD2 (3.50) and SA1.
For future research, we would develop the
standard, procedure and manual for integration audit
that can improve organization performance through
integrated management system and research for
correlation of integration audit to improve
organization performance.
ACKNOWLEDGEMENT
Authors would like to thank the financial support
provides by University of Indonesia through the
PITTA 2018 funding scheme under grant number
861/UN2.R3.1/HKP.05.00/2018 Managed by
Directorate for Research and Public Services
(DRPM) University of Indonesia.
REFERENCES
Adeleke, A. Q. et al., 2017. “The Influence of
Organizational External Factors on Construction Risk
Management among Nigerian Construction
Companies.” Safety and Health at Work 1–10.
Retrieved https://doi.org/10.1016/j.shaw.2017.05.004).
Bernardo, Merce., 2011. “Relationships between the
Integration of Audits and Management Systems An
Empirical Study.”
Bernardo, Merce, Marti Casadesus, and Stanislav
Karapetrovic. 2010. “An Empirical Study on the
Integration of Management System Audits.” 18:486–
95.
Bernardo, Merce, Marti Casadesus, Stanislav
Karapetrovic, and Iñaki Heras., 2009. “How Integrated
Are Environmental, Quality and Other Standardized
Management Systems? An Empirical Study.” Journal
of Cleaner Production 17(8):742–50.
Bernardo, Merce, Maria Gianni, Katerina Gotzamani, and
Alexandra Simon., 2017. “Is There a Common Pattern
to Integrate Multiple Management Systems? A
Comparative Analysis between Organizations in
Greece and Spain.” Journal of Cleaner Production
151:121–33. Retrieved
(http://dx.doi.org/10.1016/j.jclepro.2017.03.036).
Bernardo, Merce, Alexandra Simon, Juan José Tarí, and
José F. Molina-Azorín., 2015. “Benefits of
Management Systems Integration: A Literature
Review.” Journal of Cleaner Production 94:260–67.
Carvalho, Karla M. P., Flávio Picchi, Gladis Camarini,
and Edna M. Q. O. Chamon., 2015. “Benefits in the
Implementation of Safety , Health , Environmental and
Quality Integrated System.” 7(4).
Demirkesen, Sevilay and Beliz Ozorhon., 2017.
“ScienceDirect Impact of Integration Management on
Construction Project Management Performance.”
International Journal of Project Management
35(8):1639–54. Retrieved
Development of Integration Audit on Integrated Management System in Order to Increase Organizational Performance of Construction
Company
601
(https://doi.org/10.1016/j.ijproman.2017.09.008).
Ferreira, Manuel et al., 2016. “Model Based Integration of
Management Systems ( MSs ) – Case Study.”
Forteza, Francisco J., Jose M. Carretero-Gómez, and
Albert Sesé., 2017. “Effects of Organizational
Complexity and Resources on Construction Site Risk.”
Journal of Safety Research 62:185–98.
Gianni, Maria, Katerina Gotzamani, and George Tsiotras.,
2017. “Multiple Perspectives on Integrated
Management Systems and Corporate Sustainability
Performance.” Journal of Cleaner Production
168:1297–1311. Retrieved
(https://doi.org/10.1016/j.jclepro.2017.09.061).
Implementation, Milestones I. N., Case Study, and
Radiologische Netzwerk. 2016., “OF AN
INTEGRATED MANAGEMENT SYSTEM IN THE
HEALTH SECTOR.” 432–46.
Karapetrovic, Stanislav and E. S. Rosenbloom. 1999.,
“Quality Control Approach to Consistency Paradoxes
in AHP.” European Journal of Operational Research
119(3):704–18.
Latief, Yusuf and Retyaning Puji Utami. 2009. “Penerapan
Pendekatan Metode Six Sigma Dalam Penjagaan
Kualitas Pada Proyek Konstruksi.” Makara Teknologi
13(2):67–72.
Lenhardt, Uwe and David Beck., 2016. “Prevalence and
Quality of Workplace Risk Assessments - Findings
from a Representative Company Survey in Germany.”
Safety Science 86:48–56. Retrieved
(http://dx.doi.org/10.1016/j.ssci.2016.02.017).
Lo-Iacono-Ferreira, Vanesa G., Salvador F. Capuz-Rizo,
and Juan Ignacio Torregrosa-López., 2018. “Key
Performance Indicators to Optimize the Environmental
Performance of Higher Education Institutions with
Environmental Management System – A Case Study
of Universitat Politècnica de València.” Journal of
Cleaner Production 178:846–65.
Merad, Myriam, Nicolas Dechy, and Frédéric Marcel.,
2014. “A Pragmatic Way of Achieving Highly
Sustainable Organisation : Governance and
Organisational Learning in Action in the Public
French Sector Q.” Safety Science 69:18–28. Retrieved
(http://dx.doi.org/10.1016/j.ssci.2014.01.002).
Merce, Alfonso Hernandez-vivanco, Bernardo Claudio,
Alfonso Hernandez-vivanco, Merce Bernardo, and
Claudio Cruz-cázares. 2016., “Relating Open
Innovation , Innovation and Management Systems
Integration.”
Mourougan, Sendil. 2015., “Auditing Integrated
Management System for Continuing Suitability ,
Sustainability and Improvement.” 17(10):1–14.
Muzaimi, Hafizzudin, Boon Cheong Chew, and Syaiful
Rizal Hamid., 2017. “Integrated Management System :
The Integration of ISO 9001 , ISO 14001 , OHSAS
18001 and ISO 31000.” 020034.
Neppach, Simone, Katia R. A. Nunes, and Liselotte
Schebek., 2017. “Organizational Environmental
Footprint in German Construction Companies.”
Journal of Cleaner Production 142:78–86. Retrieved
(http://dx.doi.org/10.1016/j.jclepro.2016.05.065).
Nunhes, Thaís Vieira, Luis César F. Motta Barbosa, and
Otavio Jose de Oliveira., 2017. “Identification and
Analysis of the Elements and Functions Integrable in
Integrated Management Systems.” Journal of Cleaner
Production 142:3225–35.
Olaru, Marieta, Dorin Maier, Diana Nicoar Ă, and
Andreea Maier., 2014. “Establishing the Basis for
Development of an Organization by Adopting the
Integrated Management Systems : Comparative Study
of Various Models and Concepts of Integration.”
109:693–97.
Oliveira, Ana Claudia De, Carla Cristiane Sokulski,
Alamo Alexandre, and Antonio Carlos De Francisco.,
2018. “Competencies for Sustainability : A Proposed
Method for the Analysis of Their Interrelationships.”
Sustainable Production and Consumption 14:82–94.
Retrieved (https://doi.org/10.1016/j.spc.2018.01.005).
Sampaio, P. and P. M. Arezes., 2014. “Total Quality
Management & Business Excellence Analysis of
Integrated Management Systems from Various
Perspectives.” (October):37–41.
Sanz-calcedo, J. G., A. G. González, O. López, D. R.
Salgado, and I. Cambero., 2015. “Analysis on
Integrated Management of the Quality , Environment
and Safety on the Industrial Projects.” Procedia
Engineering 132:140–45. Retrieved
(http://dx.doi.org/10.1016/j.proeng.2015.12.490).
Simon, Alexandra and Marti Casadesus., 2014. “Can
Integration Difficulties Affect Innovation and
Satisfaction ?” 114(2):183–202.
Simon, Alexandra, Alexandra Simon, Stanislav
Karapetrovic, and Martí Casadesús., 2012.
“Difficulties and Benefits of Integrated Management
Systems Industrial Management & Data Systems
Emerald Article : Difficulties and Benefits of
Integrated Management Systems.” (March 2015).
Wibowo, Mochamad Agung and Rudi Waluyo., 2015.
“Knowledge Management Maturity in Construction
Companies.” Procedia Engineering 125:89–94.
Retrieved
(http://dx.doi.org/10.1016/j.proeng.2015.11.014).
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