Technological Progression and Urgency of
R
egulatory Amendment
on Legal Metrology
Muldri Pudamo James Pasaribu
1*
and Ningrum Natasya Sirait
2
1
Student of Doctoral Program in Law, University of Sumatera Utara, Jl. Abdul Hakim No. 4, Medan, Indonesia
2
Lecturer of Doctoral Program in Law, University of Sumatera Utara, Jl. Abdul Hakim No. 4, Medan, Indonesia
Keywords: Regulatory Amendment, Technological Progession, Legal Metrology
Abstract: Law Number 2 Year 1981 concerning Legal Metrology (UUML) is aimed at ensuring verifiable
measurement and legal certainty of measurement in activities related to transaction justice, public health,
environmental protection, and safety. Both of these activities basically have to be recognized internationally
and truthfully. The purpose of this study is to find out how rapidly evolving technology becomes an urgency
in encouraging countries to improve the metrological regulations. This research is legal research, with
normative juridical approach. Data obtained through the library research. UUML was born at the time of
unknown information system as reliable as it is today. Starting from the measurement technology is more
effective, efficient, and the results of high accuracy, to the technology that facilitates the access to
information and facilitate the decision-making. Progress from the science and practice of metrology that has
not been accommodated in the existing law. In addition to adjusting laws with technology, the government
should also pay attention to the provision of human resources to operate technology in the field of
metrology.
1 INTRODUCTION
In everyday life, human beings cannot be separated
from measuring activities, ranging from performing
simple measurements to measurements that require
high technology (BPHN, 2013). Measurement
activities have become part of everyday life that we
often do not realize, for example:
The speedometer on the car used when
monitoring the speed of the vehicle, to ensure
the safety of the trip thereby reducing the
casualty of traffic accidents.
At the time of undergoing a medical
examination to make sure we stay healthy, then
used health measuring device.
When using the time to use appropriate and
satellite positioning system to determine
location.
When consuming electricity, gas, and water, it
will be billed by measurement.
When buying meat, fish, fruit, and vegetables, it
will be paid based on the weight of the
commodity purchased.
At the time of refuelling the vehicles then use
unit volume (OIML, 2018)
All of the above activity examples can be
measured, and measurement activities are called
metrology.
Not many understand metrology in depth. Article
1 point a Law No. 2 of 1981 regarding Legal
Metrology defined that metrology is a science of
measuring widely. According to the International
Vocabulary of Basic and General Terms in
Metrology (VIM), metrology is an activity that
encompasses all the activities necessary to make the
correct measurements, traceable and acknowledged
in national, regional and international levels, in such
a way as to create mutual trust in between the parties
conducting or having an interest in the measurement.
This mutual trust then created social cohesion in
society and facilitated transactions in the global
marketplace.
The diversity of human needs for measurement,
resulting in metrology developed into three
categories such as industrial metrology, legal
metrology, and scientific metrology. This
international classification was introduced in the
European community through the European
1606
Pasaribu, M. and Sirait, N.
Technological Progression and Urgency of Regulatory Amendment on Legal Metrology.
DOI: 10.5220/0010090716061610
In Proceedings of the International Conference of Science, Technology, Engineering, Environmental and Ramification Researches (ICOSTEERR 2018) - Research in Industry 4.0, pages
1606-1610
ISBN: 978-989-758-449-7
Copyright
c
2020 by SCITEPRESS Science and Technology Publications, Lda. All rights reserved
Collaboration in Measurement Standards
(EUROMET, then EURAMET). Industrial
Metrology is intended to provide certainty of the
accuracy of the equipment used in the planning,
production process and the process of testing the
characteristics of industrial products in such a way
that the quality of its products can be accepted
internationally. Legal metrologyis concerned with
measurements that impact economic, health, and
safety transactions. Scientific metrology, related to
the regulation and development of its measurement
and maintenance standards (highest level) (Howarth
and Redgrave, 2008). The categorization of
metabiological activities introduced by EURAMET
is then internationally accepted in the grouping of
metrology applications (BPHN, 2016)
Metrology includes three main things (Howarth
and Redgrave, 2008):
Determination of the definition of
internationally accepted measure units; such
as meters.
The manifestation of units of measure based
on scientific methods; such as the
embodiment of the meter values using a
laser beam.
Determining the traceability chain by
determining and recording the value and
accuracy of measurement and disseminating
that knowledge; e.g., the relationship (ratio)
between the measuring value of a screw
micrometer in the workshop and the
standard length in the standard laboratory
length.
The accuracy and consistency of measurements
can be guaranteed if there are arrangements by the
state or government. The standard is intended to
create a healthy and fair market, especially for
consumers (Johnston, 2009). The legal protection of
Metrological activity in Indonesia is governed by
Law No. 2 of 1981 regarding Legal Metrology
(UUML) which outlines the units of measurement,
unit standard, testing and calibration of Measuring,
Dosing, Weighing Devices and their outfits (UTTP)
and Goods In Wrapped Condition (BDKT) along
with prohibited conduct related to circulation and
use of Measuring Instruments and Measurement
Units that are not in accordance with BDKT
provisions and circulation that are not in accordance
with the provisions.
UUML is aimed at ensuring verifiable
measurement and legal certainty of measurement in
activities related to transaction justice, public health,
environmental protection, and safety. Both of these
activities have to be recognized internationally and
truthfully.
Various developments related to measuring
technology, unit size definition, BDKT testing
system, international agreement, governance system,
the application of calibration service, community
needs and the amount of criminal sanction and
penalty, a new law which regulates a comprehensive
system national metrology is integrated in
accordance with the development and futuristic so as
to be able to answer the needs of the measurement
for the future.
The scope of UUML arrangement substantially
focuses on legal metrology from the trade side.
While the protection of the public interest associated
with measurement is not only a fundamental
requirement for governments, traders, entrepreneurs,
consumers and trade practices alone, but legal
metrology covers all aspects of public interest
related to measurement such as health, safety,
environment and monitoring and control natural
resources.
Based on the above conditions, national
legislation should provide recognition of
international legal instruments, so that the certainty
of measurement can be guaranteed not only
nationally but also internationally. Progress from the
science and Metrology practice which is not
accommodated in the existing law. UUML has not
yet accommodated all the overall metrology system
arrangements that include scientific metrology,
industrial metrology, and legal metrology. The
urgent need for legislation that addresses the
problems and challenges that develop at the national,
regional and international levels, it is time to create a
more comprehensive Metrology Act.
The problem of this research is formulating into
question: how is the development of science and
technology as urgency in the improvement of
regulations in the field of metrology?
2 RESEARCH METHODOLOGY
This research is legal research. The approach
method used is normative juridical. Data obtained
through the literature. As an initial step, an analysis
of the various laws and regulations of metrology was
conducted. Furthermore, data related to the
definition, principles, and principles of metrology
were collected from literature in the form of books
and journals. Besides, some data is also obtained
through the internet and dictionaries. The total data
collected was then analyzed qualitatively, and
Technological Progression and Urgency of Regulatory Amendment on Legal Metrology
1607
presented systematically to obtain the answers to the
problems in this study.
3 RESULT AND DISCUSSION
The role of the state in metrological activities is to
provide the necessary tools in ensuring the
confidence in the measurement results (OIML,
2012). It requires the government to implement the
necessary measures to promote metrology, develop
adequate metrological infrastructure, support
metrology research to protect communities and
business actors against fraud related to
measurement. This activity should be regulated in a
comprehensive and coherent policy so that
metrological legislation is required.
The modern metrology element has grown to
such an extent that it is not limited to traditional
legal metrology activities. The importance of
metrology activities for socio-economic
development requires a comprehensive and coherent
metrology policy that takes into account issues
related to customers, employers, education, health,
safety and security of citizens. In developing a
national metrology system, the government should
ensure transparency so that every stakeholder with
metrology can make informed decisions.
Economic globalization, as well as international
cooperation in the field of metrology, is
overgrowing. While on the other hand, the
community needs a system that is more in line with
the standards and systems that develop
internationally, a system that provides more
assurance of certainty both for the interests of
consumers and the interests of the industrial world,
especially improving national competitiveness in
global competition.
The arrangement of Metrology in Indonesia
began to be regulated since 1923, that is with the
enactment of the Calibration Ordinance in 1923
which had four times change and last by RI Act. No.
Law No. 2, 1981 on Legal Metrology (In the
Explanation of Law No. 2 of 1981 explained that
with the transition period for 10 years, which in its
implementation 15 years, from 1 January 1938 in
Indonesia officially applies Metric System Unit in
size, dosage, scales and equipment that replaced
traditional system units such as to, and Kati. Teron
Ordinance has the signing of Presidential Decree
No. 54 of 1957 on the appointment of the Parent
Committee for Meters and Kilograms and
Presidential Decree No. 55 of 1957 on the
appointment of meters (X 27) and kilograms (K 46)
as a national standard All these provisions are no
longer valid with the enactment of the above
UUML.In addition to adopting the International
System of SI as the only officially appropriate unit
system in Indonesia, Law No. 2 of 1981 regulates
the standards, measuring equipment, Calibration and
Re-Calibration, goods in a wrapped state, prohibited
acts, criminal provisions, surveilance, and
investigations. The term National Metrology
Institute (LMN) is not known in Law no. 2 of 1981
and all the rules or decisions under it that apply
today. However, an interpretation of the existence of
LMN can be developed from the substance
mandated by UUML.
After the UUML stipulation, it was decided on
the formation of the National Standardization Board
through Presidential Decree No. 7 of 1989, National
Standard Measurement Unit through Government
Regulation No. 2 of 1989, the establishment of
National Standardization Body to continue the task
of the National Standardization Board through
Presidential Decree No. 13 of 1997, then the
establishment of SNSU Trusteeship, known as the
National Standard Committee of Size Units through
Presidential Decree no. 79 of 2001, in this
Presidential Decree, scientific-technical
management of national measurement standards is
submitted to the work unit under the Indonesian
Institute of Sciences, which is engaged in Metrology
namely Center for Metrology-LIPI.
Infrastructure involved in the implementation of
metrology in Indonesia has been developed and
internationally recognized between LIPI regarding
standard size management and research (scientific
metrology), National Standardization Body (BSN) in
harmonizing standards, and National Accreditation
Committee (KAN) in giving recognition in formal to
suitability. By recognizing the respective roles of the
infrastructure, cooperation and partnerships are
necessary to support the implementation of
comprehensive metrology activities in turns such as
assessment of test laboratories, the preparation of
SNI for UTTP products, standard verification, and
others.
Technology is the making, usage, and knowledge
of tools, machines, techniques, crafts, systems or
methods of organization to solve a problem or
perform a specific function. It can also refer to the
collection of such tools, machinery, and procedures.
Technology is a vital component of industrialization
and any country which envisions industrialization
pay much attention to securing technology
appropriate to peculiar needs (Republic of Kenya,
2006).
ICOSTEERR 2018 - International Conference of Science, Technology, Engineering, Environmental and Ramification Researches
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Technology also plays a direct role in the current
structural disinflation because technological
innovation has reduced the real cost of certain
crucial goods, especially information systems,
telecommunications, and transportation. Strong
productivity gains-driven in part by technology- also
keep inflation low, even when labor markets are
very tight.
Globalization even accelerates technological
change. Every day there seems to be a new
technological innovation created. The pace of
change is happening so fast as if everyone were
racing each other in buying or updating his or her
new devices. Technology is now also a leader in the
modern world in creating new jobs, innovations, and
networking sites that allow individuals to connect
globally (Levin Institute, 2016).
With the advent of programmable hardware
components and their integration into measuring
instruments, the influence and importance of
software, especially in legal metrology, has been
remarkably increased. Software validation is an
indispensable part of the type examination process in
legal metrology. The validation of software
concerning the developed requirements of the
baseline remains a demanding task due to the
absence of straightforwardly defined procedures
(Richter, 2006).
The definition of a unit and standard measures
are dynamic following the Development of Science
and Technology (IPTEK) and the International
Agreement. Science and technology are continually
evolving and proportional to their application in the
world of measurement, in this case, the world of
metrology, since almost every discipline must
involve calculation, measurement, calibration,
certification, and so on.
UUML was born at the time of unknown
information system as reliable as it is today. Starting
from the measurement technology is more effective,
efficient, and the results of high accuracy, to the
technology that facilitates the access to information
and facilitate the decision-making.
Another significant development is
nanotechnology. Nanotechnology is a field of
science studies that deal with engineering
technology on materials that have a size less than
100 nanometers or billionth of a meter (Allhoff,
2010). This technology can create substances up to
one billionth of a meter (nanometer), so the
properties and functions of the substance can be
changed as desired. In the world of health,
nanotechnology can play a role in improving the
quality of production and safety (safety
performance), helps solubility, stability, and
absorption, multifunctional to detect cancer and to
deliver drugs directly to target cells. The use of
nanotechnology for community needs products such
as in the manufacture of computers, electronic
products, cosmetics products, fertilizer industry,
nano textile products, nanoceramics, nano coating,
nanofilm, nano pharmaceutical world and others
including Indonesian herbal (Nurul, 2007).
In Indonesia, the traceability chain for
nanotechnology measuring equipment is still not
available. Currently, the Nanometrology research
group at the LIPI Metrology Research Center is
researching the development of traceability of
nanotechnology measuring equipment, especially for
the nanotechnology-based measuring instrument that
is much needed in Indonesia. The use of this
technology is highly likely to increase over time. So
the government has to think about the legal
infrastructure that can accommodate technological
advances in the field of nanotechnology.
The rapid advancement of information and
communication technology and its widespread
utilization potential also opens opportunities for
accessing, managing and utilizing large volumes of
information quickly and accurately. Utilization of
communication and information technology in
government process (e-government) will improve
efficiency, effectiveness, transparency, and
accountability of governance (Kemenkumham,
2016).
Along with technology is always needed human
resources capable of running to operate the
technology. UUML regulates the rightful employee
along with authority to conduct re-calibration,
refrain and damage the measuring instruments that
do not meet the requirements. Metrological activity
is not only done by measurement manpower but also
involves laboratory institutions, standard managers,
supervisors, Civil Servants Investigator (PPNS),
researchers, and so forth.
Resources owned by local governments in
organizing metrology activities are quite limited. A
survey conducted by the Japan International
Cooperation Agency (JICA) in 2006 shows that
there is a change of function in the region as a result
of regional autonomy, resource constraints, and
equipment limitations.
Based on the result of study of legal metrology
system by Domestic Trade Research and
Development Center Puslitbang Perdagangan Dalam
Negeri, Trade Research and Development Agency of
Trade Ministry in 2007 found that one of the
obstacles of local government is the resources and
Technological Progression and Urgency of Regulatory Amendment on Legal Metrology
1609
institutional of regional metrology unit experiencing
inequality between Java region (for example DKI
Jakarta, East Java, West Java) and outside Java.
Both are human resources and technical
infrastructure support where the condition of legal
metrology unit outside Java island is quite alarming.
Comparison of performance results for each
metrology unit has an average of 17.88 functional
HR people to serve 9.13 districts/cities; 103.6
Subdistricts; and 1,168.94 villages with 4,381,186
residents (Kemenkumham, 2016).
There is no explicit regulation related to
professional standards, competency standards, and
professional ethics and has not set clearly about
education and training metrology. At the level of the
implementation of national tera and re-tera service
has not been optimal due to the limited number of
human resources, and the difficulty in getting the
right personnel formation in various regions. For the
improvement of the new regulation, the standard
conditions are clear arrangements on the types of
HR Kemetrologian, clarity of standard setting:
profession, competence, operational procedures and
professional ethics, as well as the precise
arrangement of Kemetrologian Education and
Training, and reactivation of Metrology Academy.
Metrology will continue to grow and go hand in
hand with increasingly advanced technology and
science. It takes continuous research to keep
metrology relevant and useful for human life.
Likewise, the law must go hand in hand with these
technological developments. If the law lags behind,
then there will be chaos, because the law always
aims to achieve order.
4 CONCLUSION
UUML is aimed at ensuring verifiable measurement
and legal certainty of measurement in activities
related to transaction justice, public health,
environmental protection, and safety. UUML has not
yet accommodated all the overall metrology system
arrangements that include scientific metrology,
industrial metrology, and legal metrology. Even with
the advancement of science and technology, the
practice of metrology is no longer contained in the
existing law. The urgent need for legislation that
addresses the problems and challenges that develop
at the national, regional and international levels, it is
time to create a more comprehensive Metrology Act.
Also, the government must also think about the
required operator power, which is capable of
running human resources to operate the technology.
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