80871 State of Logistics Indonesia 2013 Center of Logistics and Supply Chain Studies Institut Teknologi Bandung (ITB) Gedung Lab-Tek II Lt. 4 Jl. Ganesha 10 Bandung 40132 http://www.logistics-center.itb.ac.id/ Asosiasi Logistik Indonesia Gedung 1 Lt. 6 Kementerian Perdagangan RI Jl.M.I. Ridwan Rais No.5 Jakarta 10110 http://www.ali.web.id/ Panteia/NEA P.O. Box 276 2700 AG Zoetermeer The Netherlands STC-Group Lloydstraat 300 3024 EA Rotterdam Postbus 63140 300JC Rotterdam http://www.stc-group.nl The World Bank Office Jakarta Indonesia Stock Exchange Building, Tower II/12-13th Fl. Jl. Jend. Sudirman Kav. 52-53 Jakarta 12910 Tel: (6221) 5299-3000 Fax: (6221) 5299-3111 Printed in August 2013 State of Logistics Indonesia 2013 is a collaboration of the Center of Logistics and Supply Chain Studies, Institut Teknologi Bandung (ITB), Asosiasi Logistik Indonesia, Panteia/NEA, STC-Group and the World Bank. The findings, interpretations and conclusions expressed herein do not necessarily reflect the views of the Board of Executive Directors of the World Bank or the governments they represent. The World Bank does not guarantee the accuracy of the data included in this work. The boundaries, colors, denominations and other information shown on any map in this work do not imply any judgment on the part of the World Bank concerning the legal status of any territory, or the endorsement of acceptance of such boundaries. Cover photograph is: Copyright @ SECO. All rights reserved. State of Logistics Indonesia 2013 Multi Partner Facility Trade and Investment Climate Colophon Editorial Board Prof. Dr. Ir. Senator Nur Bahagia : Director of the Center for Logistics and Supply Chain Studies of ITB, Chief Editor Henry Sandee : Senior Trade Specialist of the World Bank office in Jakarta René Meeuws : Panteia/NEA, project director of the INDF-project Other contributors Cas van der Baan and Anné Padmos : STC Group Ahmad Malkan Lubis : Member of Indonesian National Logistic Team – SISLOGNAS Natalia Cubillos, Nanda Nurridzki and Adhi Dipo : World Bank office Jakarta Geert Smit : Panteia/NEA Zaldy Masita : Chairman of Indonesia Logistics Association (ALI) Preface Preface We are very proud to present to you “State of Logistics Indonesia 2013�. This publication has been produced under the umbrella of project INDF10/RI/21 under the Indonesia Facility financed by the Government of the Netherlands with technical support from the World Bank office in Jakarta. The project aims at establishing a Dutch-Indonesian Centre for Logistics. There are four project partners: NEA Transport Research and Training, which nowadays has become a business unit of Panteia; the STC Group in the Netherlands; the Asosiasi Logistik Indonesia ALI (Logistics Association Indonesia); and the Institute of Technology in Bandung (ITB) in Indonesia. During the implementation of the project also ORGANDA, the Indonesian National Association for Land Transport, has become involved in Dutch- Indonesian cooperation in the field of transport and logistics. The project long term objective is to improve Indonesia’s logistics performance and to reduce the costs of transportation, which will lead to more affordable prices of basic commodities; connectivity and integration in the country and an improved competitive position of Indonesia on the global market. These aspects are expected to contribute to poverty alleviation in Indonesia. The concrete short term objective is to strengthen Indonesia’s knowledge base in the field of transport and logistics through training and research. Towards this end the Dutch-Indonesian Centre for Logistics is to be developed, contributing to sustainable results. This publication joins a tradition of various countries the world of publishing an annual report on national logistics performance. Core component of such an annual report is an estimation of the calculation of the annual national logistics costs. Many countries have based this calculation on a methodology developed in the USA more than 30 years ago. We have also tried to do this in the case of Indonesia. The results of this calculation and the methodology applied can be found in Section 1 - Chapter 3 of this publication and is based on research carried out by ITB in Bandung under the leadership of the Chief Editor, Prof. Dr. Ir. Senator Nur Bahagia. The editors acknowledge the support of the Multi Partner Facility for Trade and Investment Climate (MPFTIC), funded by the Kingdom of the Netherlands and State Secretariat for Economic Affairs SECO Switzerland, to make this publication possible. Section 2 of Chapters 4, 5 and 6 appeared earlier as technical notes of the Competitiveness team of the World Bank Indonesia Office. The partners are already preparing “State of Logistics Indonesia 2014�, which will be published in January 2014. It is the intention to start a cycle of annual publication of this kind of logistics report for Indonesia. On behalf of all partners of the INDF10/RI/21 project - Panteia/NEA, the STC Group, Asosiasi Logistik Indonesia (ALI) and ITB Bandung – , we wish you a good reading of this document, which is published in two languages – Bahasa and English – to reach a wider audience. Prof. Dr. Ir. Senator Nur Bahagia René Meeuws Chief Editor Project Director Jakarta, July 17, 2013 State of Logistics Indonesia 2013 I Table of Contents Table of Content 1. Introduction 1 1.1 Background 1 1.2 Objective and Scope of State of Logistics Indonesia 2 SECTION 1 - LOGISTICS POLICY AND PERFORMANCE 3 2. Logistics Policy in Indonesia 4 2.1 Background 4 2.2 SISLOGNAS and MP3EI 5 2.3 Blueprint of National Logistics System Development 8 2.4 Strategic, Program and Policy Direction 11 2.5 CLosing Remarks 15 3. National Logistics Costs 16 3.1 Background 16 3.2 National Logistics Cost Model 18 3.3 Indonesian Logistics Cost Model 19 3.4 Analysis of Indonesian Logistics Cost 20 3.5 Closing Remarks 23 SECTION 2 - LOGISTICS CASE STUDIES 25 4. Reducing Dwell - Time of Import Containers in Tanjung Priok 26 4.1 Background 26 4.2 Tackling Import Container Dwell-Time in Tanjung Priok 26 4.3 Analysis and Discussion 29 4.4 How to Reduce DT 32 5. Preliminary Assessment of Implementation 24/7 Program in Tanjung Priok Port 34 5.1 Background 34 5.2 Evaluation of 24/7 Operations at Tanjung Priok Port 34 5.3 Summary of Findings 35 6. Development of Dry Ports in Indonesia – Case Study of Cikarang Dry Port 40 6.1 Background 40 6.2 The Current State of Cikarang Dry Port 42 6.3 Impact of Dwell Time in Tanjung Priok 45 7. Capacity Development in Logistics in Indonesia 46 7.1 Background 46 7.2 Goverment Policy, Strategy and Program 47 7.3 Logistics Education System and Profession 48 7.4 Current Progress 52 7.5 Closing Remark 53 References 54 II State of Logistics Indonesia 2013 Glossary of Terms and Abbreviation Abbreviations ALFI Indonesian Logistics and Forwarders Association ALI Asosiasi Logistik Indonesia ASEAN Association of Southeast Asian Nations BC 1.1. Customs Identification Number for Document of Cargo Manifest submit by shipping line BNSP National Agency of Professional Certification BPOM National Agency for Drug and Food Control (Badan Pengawasan Obat dan Makanan) CDP Cikarang Dry Port CMEA Coordinating Minister for Economic Affairs CIF Cost, Insurance and Freight CSIR Council for Scientific and Industrial Research DO Delivery Order DT Dwell Time EDI Electronic Data Interchange ELA European Logistics Association FF Freight Forwarder FOB Free On Board GDP Gross Domestic Product INALOG National e-Logistics System INSW Indonesia National Single Window IPC Indonesia Port Corporation JICT Jakarta International Container Terminal KADIN Indonesian Chamber of Commerce and Industry KKNI Indonesia Qualification Framework (Kerangka Kualifikasi Nasional Indonesia) KPPT Integrated Customs Service Area KOTI Korea Transport Institute KP3EI Committee on Acceleration and Expansion of Indonesia’s Economic Development LPI Logistics Performance Index MITA MITRA UTAMA (Customs Priority Channel) MP3EI Master Plan for the Acceleration and Expansion of Economic State of Logistics Indonesia 2013 III Glossary of Terms and Abbreviation Development of Indonesia NKRI Unitary State of the Republic of Indonesia NPMP National Port Master Plan ORGANDA National Association of Land Transport Operators Pelindo PT. Pelabuhan Indonesia PIB Pemberitahuan Impor Barang (Import Declaration) PJL Logistics Service Provider PL Logistics Actor RPJMN National Mid-Term Development Plan SISLOGNAS Sistem Logistik Indonesia SME Small and Medium-sized Enterprise SOE State-Owned Enterprise SP2 Final invoice SSS Short Sea Shipping SPPB Surat Pemberitahuan Pengeluaran Barang (customs notification of cleared goods) STC Shipping and Transport College (part of STC Group, Rotterdam, NL) TPB Customs Bonded Storage Area TPFT Integrated Physical Inspection Facility TPS Customs Temporary Storage Area IV State of Logistics Indonesia 2013 1. Introduction 1.1 Background Indonesia is the world largest archipelagic country consisting of more than 17,000 islands spread over more than 5,000 kilometres from west to east. The land area is 1,860,360 km² and the sea area 5,800,000 km² with a total of 81,000 km of coastal line. The population is more than 237 million (2010). The population density is 124 inhabitants per km². The population is very uneven distributed over the islands. Java has 58% of the population with only 7% of the total area. The population density in Java is 1,055 inhabitants per km². Maluku & Papua and Kalimantan have much lesser population densities with 11 and 25 inhabitants per km², respectively. Table 1.1 shows the pattern of the population distribution over the different provinces. Table 1.1 Indonesia: Area and Population Province Area (km) % Population % Sumatra 480,793 25 50,631,000 21 Java 129,438 7 136,610,600 58 Bali, Nusa Tenggara 73,070 4 13,074,800 6 Kalimantan 544,150 28 13,787,700 6 Sulawesi 188,522 10 17,371,800 7 Maluku & Papua 494,957 26 5,405,000 2 Total Indonesia 1,910,931 100 236,880,900 1 100 Source: Compiled from ‘Trends of Socio-Economic Indicators of Indonesia’, 2010 The geographical nature of Indonesia with its many islands and the uneven distribution of the population put enormous challenges in developing infrastructure and tackling regional disparities. Lack of infrastructure has hampered the effort to develop and realise the national and regional economic potentials. The organisation of an efficient logistics system is a crucial factor in the socio-economic development of Indonesia. 1 The total population mentioned in the ‘Trends of Socio-Economic Indicators of Indonesia, 2010’ was 237641300, which does not match with the sub totals. State of Logistics Indonesia 2013 1 Introduction Currently, the logistics system is in need to become more efficient. The inadequate performance of the logistics system is dragging its export capacity down and constraining the country from fully participating in the global production network2. Indonesia’s share of exports to total GDP has been low over the period 1999-2008 at 28%, far smaller than Singapore (150%), Malaysia (91%) and Thailand (50%)3. Developing an efficient logistics system would increase the competitiveness of Indonesia’s external trade and increase export. It also would contribute to reducing regional disparities and providing easier and cheaper access of the commodities on the domestic market 1.2 Objective and Scope of State of Logistics Indonesia Objective The objective of the State of Logistics Indonesia 2013 is to provide a status update of logistics performance in Indonesia. In addition, specific information is provided on logistics cases. Scope The State of Logistics Indonesia 2013 consists of two sections: • Logistics Policy and Performance, providing the framework of logistics policy in Indonesia and an overview of logistics performance in terms of national logistics costs of Indonesia. • Logistics Case Studies, providing specific insight in relevant logistics development in Indonesia. State of Logistics Indonesia will be produced on an annual basis. The first section on Logistics Policy and Performance will be updated annually, providing a benchmark for logistics development in Indonesia. The second section will feature a varying selection of relevant cases. 2 Basri and Rahardja; Managing openness: should Indonesia say goodbye to strategy facilitating exports; report for the World Bank. 2010. 3 Siwage Dharma Negara; Logistics Enhancement for Trade Facilitation in Indonesia; 2010 2 State of Logistics Indonesia 2013 Section 1 Logistics Policy and Performance 2. Logistics Policy in Indonesia 2.1 Background An effective and efficient National Logistics System is one that drives the integration of land and sea into a whole and sovereign system contributing toward the actualization of Indonesia as a maritime nation through the implementation of its strategic role in synchronizing and aligning progresses of various economic sectors and regional developments toward an inclusive economic growth thus fortifying national economic sovereignty and security. Therefore, in addition to improve the national economy, the role of the National Logistics System is also to be one of the unifying vehicles to solidify the Unitary State of the Republic of Indonesia (NKRI). It is a fact, however, that Indonesia’s national logistics system performance in general is still not optimal and needs to be improved as indicated by: (a) inadequate infrastructure, both quantitatively and qualitatively; (b) prevalence of illegal charges and transaction fees causing high-cost economy; (c) poor export and import processing lead time, and bottlenecks on port services; (d) inadequate service capacity and networks supporting national logistics providers; (e) chronic difficulties in stocks management and price fluctuation of basic commodities particularly during national and religious holidays; and, in addition (f) significant price disparity in border, remote and outer areas. These have significant impacts on the performance of the national logistics sector as the World Bank’s 2010 and 2012 the Logistics Performance Index (LPI) of Indonesia was quite poor compared with other ASEAN member countries, even though with Vietnam which is in the category of low income country while Indonesia is in the category of lower middle income. Indonesia’s position was only above Laos, Cambodia, and Myanmar which were in the category of low income countries. In addition to the poor logistics performance, Indonesia also faces fiercer global and regional competition which is no longer among products and among companies, but among logistics networks and supply chains. Meanwhile, Indonesia also needs to prepare for the integration of ASEAN logistics sector by 2013 as part of the ASEAN Economic Community of 2015, and also for integrated global market. Such preparations need to be formulated and set out in a synchronized and unifying policy spelled out through a National Logistics System Blueprint. Indonesia has put many efforts in developing a new policy to improve its national and international logistics system during the last five years. These efforts were formalized4 through 4 The World Bank’s LPI 2007 and urgency to meet regional/international commitments have also contributed to this. 4 State of Logistics Indonesia 2013 Section 1 the issuance of the Presidential Instruction No. 5/2008 regarding Focus of Economic Programs 2008-2009, which, among others, asked for the preparation of a national logistics blueprint with the Coordinating Minister for Economic Affairs (CMEA) as the designated responsible party. The team tasked for the preparation was established and this blueprint preparation process has been strongly supported not only by related government’s ministries/agencies, logistics associations members of the chamber of commerce, academicians, practitioners/ experts, but also by international institutions like the World Bank, bilateral cooperation with Japan, Australia and The Netherlands. The results of these efforts can be found in the fact that gradually a more integrated framework is evolving, which allows the elaboration of concrete action plans as later on detailed in the Presidential Regulation No.26/2012 under which the Blueprint for the Development of the National Logistics System (Sistem Logistik Nasional, thus, SISLOGNAS) was issued on March 2012. During the preparation, the team had organized many meetings with private and public stakeholders to get the necessary inputs, and the content of the blueprint had been synchronized into Government national programs, such as the Connectivity, Economic Corridors and the Master Plan for the Acceleration and Expansion of Economic Development of Indonesia (MP3EI). The most important policy directions in this process are described below. 2.2 SISLOGNAS and MP3EI During the preparation of the logistics blueprint, the Government was also in the process of preparing the working document to implement Law No.17/2007 on the National Long Term Development Plan 2005-2025 that would transform the country into a developed country by 2025. At the same time, the Government is also aware that not only Indonesia has to prepare itself to meet its regional/international commitments, thus, to improve its competitiveness, but there is also a need to urge more involvement of the private sector in developing the economy to compensate for the country’s limited fiscal capacity. In order to be able to achieve this, a Master Plan for the Acceleration and Expansion of Economic Development of Indonesia (MP3EI)4 has been developed, and was issued through the Presidential Regulation No. 32/2011 in May 2011, providing the building blocks to transform Indonesia into one of the 10 major economies in the world by 2025. To achieve this, real economic growth should reach 7-9% per year, on an ongoing basis. The total investments needed to implement the programmes and projects identified in the MP3EI 2011-2025 are estimated at 4,012 trillion Rp (472 billion USD). For the implementation of this ambitious plan, the private sector has to be given a major and important role in economic development, particularly in investments to increase job opportunities. The government will not only be a regulator, it will also be a facilitator and catalyst to support this growth; the Master Plan also clearly states the need for “not business as usual� approach in achieving the objective. With regard to regulations, the government will amend or remove (debottlenecking) regulations that inhibit the implementation of investments. As a facilitator and catalyst, the government will provide incentives, both fiscal and non-fiscal. 4 Master Plan for the Acceleration and Expansion of Indonesia Economic Development 2011-2025; Republic of Indonesia; 2011. State of Logistics Indonesia 2013 5 Section 1 Implementation of MP3EI will include 8 main programs which consist of 22 (twenty two) main economic activities. The implementation strategy of MP3EI will integrate 3 main elements: (1) Developing the regional economic potential in 6 (six) Indonesia Economic Corridors: Sumatra Economic Corridor; Java Economic Corridor; Kalimantan Economic Corridor; Sulawesi Economic Corridor; Bali – Nusa Tenggara Economic Corridor; and Papua –Kepulauan Maluku Economic Corridor (see Figure 2.1), (2) Strengthening national connectivity locally and internationally (Figure 2.2), and (3) Strengthening human resource capacity and national science & technology to support the development of main programs in every economic corridor. The concept of connectivity was also discussed at the 15th ASEAN Summit in October 2009, where the idea of ASEAN Connectivity (physical, institutions and people-to-people) was presented for the first time. Improved connectivity within the ASEAN would result in reduced trade costs in the region, creating economic growth and employment. In the concept of the development of ASEAN connectivity, it was proposed that each ASEAN member state should enhance the trade and freight flows by improving three components: transportation of freight; business logistics; and trade facilitation. The ASEAN countries would need to reduce their logistic bottlenecks and non-physical barriers to trade and transport like tariffs, regulation, transparent procedures, differences in business practices, language, cultural barriers, etc. Indonesia set a connectivity agenda coordinated by BAPPENAS. This connectivity agenda was based on three pillars: reducing regional disparities; accelerating poverty reduction; and enhancing competitiveness. These main objectives could be achieved by reducing inter- island shipping costs; lowering transport costs for rural citizens; upgrade access and enhance efficiency of international ports. Figure 2.1 Indonesia: Six Economic Corridors Source: Master Plan for the Acceleration and Expansion of Economic Development
of Indonesia (MP3EI) Later, the National Connectivity Framework as depicted at Figure 2.2 became one of the three main elements of the MP3EI 2011-2025. 6 State of Logistics Indonesia 2013 Section 1 Figure 2.2 Indonesia: National Connectivity Framework Source: Master Plan for the Acceleration and Expansion of Economic Development
of Indonesia (MP3EI) To implement the MP3EI, the Presidential Regulation No. 32/2011 also establishes the Committee on Acceleration and Expansion of Indonesia’s Economic Development 2011-2025 (KP3EI) chaired by the President with the CMEA as the executive chair. KP3EI is responsible for the coordination, monitoring and evaluation of specific strategies and actions identified in the Master Plan. Through the MP3EI the Government of Indonesia has shown its awareness of the need to invest in the improvement of the logistics system in Indonesia. These investments focus not only on hard infrastructure, but also on the so-called soft infrastructure; more conducive regulations to facilitate trade and transport. The main challenge will be to attract sufficient private capital for the planned investments. The linkages in the implementation between MP3EI, the National Logistics System Blueprint and the related parties is depicted in Figure 2.3. Thus the Blueprint of National Logistics System Development (SISLOGNAS) is expected to contribute to the realization of goals of the National Mid-Term Development Plan (RPJMN) 2010-2014, to support the implementation of MP3EI, thus, actualizing Indonesia’s economic vision 2025 (RPJPN), i.e. “Self-sufficient, advanced, just and prosperous Indonesia� with targeted per capita GDP of US$ 14,250- 15,500 by 2025. Therefore, the National Logistics System is to be developed into an effective, efficient and integrated Logistics System based on Supply Chain Management (SCM) approach upon synchronized, integrated and collaborative stakeholders, supported by information technology and embodied under a reliable institutional setting with effective organizational system. It is expected that the National Logistics System will be operationalized by ethical and professional logistics actors and service providers, supported by adequate and reliable logistics infrastructure. The Blueprint of the National Logistics System takes into account the existing development of national and global logistics condition, regionally and internationally, and logistics business best practices processes in developed countries. As the main logistics activity is to ensure the flow of goods (commodities), the paradigm “ship-follows-the-trade� holds; but, due to Indonesia’s vast geographic span whereby access to some areas and regions is limited, the Blueprint also hinges on the “ship-promotes-the-trade� paradigm. State of Logistics Indonesia 2013 7 Section 1 Figure 2.3 SISLOGNAS Blueprint and MP3EI Implementation Framework Source: The Blueprint of National Logistics System Development (SISLOGNAS) 2.3 Blueprint of National Logistics System Development In March 2012 the SISLOGNAS Blueprint was officially approved by Presidential Regulation No. 26/2012. It also cites that the implementation of the Blueprint is coordinated by the CMEA, as the executive chair of the KPEI, and for the CMEA to establish a SISLOGNAS team, which since then has been working on an implementation plan of the National Logistics System strategy. The Blueprint of National Logistics System Development (SISLOGNAS) is not a master plan but it focuses more in laying out the direction and modules to develop a National Logistics System at the national-wide policy level to be broken down into annual Government and Ministries/ Government Agencies Work Plans. Thus, the SISLOGNAS Blueprint provides directive and guidance to the government and the business sector in developing effective and efficient National Logistics System. It is a reference to the national and local governments in developing logistics development plans and to improve transparency and coordination among ministries and agencies at the national and sub-national levels. For the business sector, the Blueprint is to support them to improve their competitiveness through creation of higher added value due to competitive costs, more investment opportunities to micro, small and medium enterprises and more opportunities for national logistics actors and service providers to build cooperation on a global scale. The Vision of National Logistics System development until 2025 is “Locally Integrated, Globally Connected for National Competitiveness and Social Welfare�. The “Locally Integrated� logistics system means that, by 2025, all logistics activities in Indonesia will be integrated effectively and efficiently at the rural, urban, interregional and inter-island levels into one unit within 8 State of Logistics Indonesia 2013 Section 1 the Unitary State of the Republic of Indonesia (NKRI) that brings welfare and prosperity to Indonesian people. The locally integrated vision promotes national economic sovereignty and security characterized by inclusive, just and evenly distributed economic growth among regions thus improving social welfare and unifying the whole territory of Indonesia as a maritime country. The “Globally Connected� logistics system means that, by 2025, the National Logistics System will be connected to the regional (ASEAN) and global logistics systems via International Hub Ports (including customs and trade facilitations), backed-up by “International Gateways� information and financial networks enabling national logistics actors and service providers to compete in the global market. The locally integrated and globally connected logistics system as schematically shown in Figure 2.4 will be achieved through integrated and efficient logistics networks consisting of distribution, transport, information and financial networks supporting logistics actors and service providers. Thus, the domestic logistics system network and its connection to the global logistics network will be a key to success in global supply chain competition as competitions will not only between products or companies but also between logistics networks and supply chains and even between countries. Further, the locally integrated and globally connected logistics system will promote national economic sovereignty and security, improve social welfare and establish the NKRI as a maritime country. Figure 2.4 National Logistics System Network Source: The Blueprint of National Logistics System Development (SISLOGNAS) The missions of the National Logistics System are: (1) to facilitate effective and efficient flows of goods to ensure the supply of the public’s basic necessities and to improve the competitiveness of national products on the domestic, regional and global markets, and (2) to build national logistics nodes and their connectivity across rural, urban, interregional and inter-island levels to international hub ports through collaboration of stakeholders. Following up on the above vision and missions, the general goal to be achieved from developing and establishing a National Logistics System is to establish an integrated, effective and efficient State of Logistics Indonesia 2013 9 Section 1 logistics system to improve the national competitiveness on the regional and global markets, and to improve social welfare. Specifically, the goals are (1) to reduce logistics costs, facilitate the movement of goods and improve logistics services thus improving the competitiveness of national products in the global and domestic market, (2) to ensure that basic and strategic commodities are available throughout Indonesia at affordable prices thus promoting a just and prosperous society, and strengthen the sovereignty and integrity of the Unitary State of the Republic of Indonesia, and (3) to prepare for ASEAN logistics integration by 2013 as part of the single ASEAN market by 2015 and global market integration by 2020. The above vision, missions and goals dictate that the National Logistics System development is to be based on 6 (six) key drivers (Figure 2.5), i.e.: (1) Key Commodities, (2) Logistics Actors and Service Providers, (3) Transport Infrastructure, (4) Information and Communication Technology, (5) Human Resources and Management, and (6) Laws and Regulations. The 6 (six) key drivers dictate adoption of the following policy directions, coordinated under one umbrella organization: (1) Identification of Key Commodities embedded in an effective and efficient logistics networks and supply chains, governance and trading scheme, (2) Integration of logistics nodes and links to facilitate the flow of goods from the point of origin to the point of destination. The logistics nodes include logistics actors and consumers; and the logistics links include distribution, transport, information and financial networks, connecting rural and urban communities, economic growth centres, between islands and cross countries. The integration of logistics nodes and logistics links provides a major foundation for achieving local, national and global connectivity towards national economic sovereignty and security and establishing Indonesia as a Maritime Country, (3) Development and adoption of a reliable and safe information and communication system; (4) Development of local world-class logistics actors and service providers; (5) Development of professional logistics human resources; (6) Reform of laws and regulations on logistics to ensure legal and business certainty, and synchronization among national and sub-national logistics actors and service providers enabling efficient logistic activities thus to establish conducive business environment; and (7) Institutional governance for an effective national logistics system. Figure 2.5 Key Drivers for the National Logistics System Source: The Blueprint of National Logistics System Development (SISLOGNAS)
 10 State of Logistics Indonesia 2013 Section 1 2.4 Strategic, Program and Policy Direction To actualize the vision, missions and goals of this National Logistics System by 2025, it is necessary to lay out policies and strategies to be further stipulated in programs, implementation phases and action plans. The policies of the national logistics system are to be developed/ implemented through are 6 (six) key drivers. Give priority to national interest As mandated by the 1945 Constitution, priority should be given to the national interest. With regard to the National Logistics System, it should improve the national competitiveness and people’s welfare by facilitating trade of locally produced commodities. It should also contribute to the stabilization of national security by ensuring the competitive and smooth distribution of basic and strategic commodities needed by the people. In developing the National Logistics System, competency building for Indonesian human resources will be one of the priorities. Drive the achievement of Indonesian economic vision by 2025 Upon establishment of 6 (six) Indonesian economic development and growth corridors as set out in the MP3EI, the National Logistics System is expected to drive the achievement of the Indonesian Economic Vision by 2025 i.e. “Actualizing Indonesian society that is self- sufficient, advanced, just and prosperous� with the targeted per capita GDP of 14,250-15,500 US Dollars. To achieve the vision, the national economic sovereignty and security should be upheld through the management of national potential and natural resources consistent with regional and international trade conventions. Promote the establishment of Indonesia as a maritime state Her endowment of thousands of islands connected by sea with abundant natural resources plus international recognition of exclusive economic zone in its territorial waters validated Indonesia as a maritime nation applying the concepts of front land and hinterland. These concepts are expected to strengthen the national economic sovereignty and security. Promote breakthrough and acceleration to catch up in a global competition Catching up with global competition would require leap-frog and breakthrough to make Indonesia’s competitiveness at par with other countries which are also reforming their logistics systems. Adoption of front land and hinterland concepts in addition to transformation of international hub into logistic ports is an example of such breakthrough at the macro level. Micro level breakthroughs include: (a) development of short-sea shipping ports in Sumatra, Java, Kalimantan and Eastern Indonesia Region as an alternative to road infrastructure, and (b) development of logistics support in the sea region to support the optimal use of Indonesia’s sea resources. Increase local governments’ role and national-local synergy As logistics system is an integrated system, national-local governments’ synergism is to be improved as it is essential to the integration of the whole national economic power. A roadmap should be drawn by the National Government with input from Local Governments (Pemda). State of Logistics Indonesia 2013 11 Section 1 The roadmap can be used by the National Government to develop a national logistics system and by local governments to develop their logistics systems, including priorities in development plans. Law Number 22 Year 2000 on Regional Autonomy authorizes District Governments to put government into operation and to be responsible for satisfying local needs for basic and strategic commodities. As a result, the logistics for basic and strategic commodities are basically the responsibility of District Governments while the National Government is responsible for providing the directives and the Provincial Government is responsible for coordination. Encourage fair competition The main goals of logistics are to facilitate the flow of goods, improve logistics services and thus increase the competitiveness of national products on the global and domestic markets. These goals will be achieved through a sound business competition. Basically, the implementation of the national logistics system for major export commodities and unregulated commodities will follow market forces. But, in terms of basic and strategic commodities, government intervention is allowable to reduce price disparity and volatility on the domestic market as the purchasing power of the general public is weak such that unchecked increases in prices may result in social upheaval. Promote the business world’s participation and business opportunities As the Government has limited resources, increasing participation of the private sector is encouraged in developing the national logistics system. A wide range of partnerships and alliances such as public-private partnerships in developing national logistics infrastructure should continuously be promoted. In addition, the private contributions do not only take the form of financing but also as an alternate in the operation of a logistics sub-system for a certain period of time. Further, the opportunities for members of community to start and develop logistics business in Indonesia should be made available widely through ease of business licensing and development. The SISLOGNAS policy is based on Supply Chain Management approach upon synchronized, integrated and collaborative stakeholders, supported by information technology embodied under a reliable institutional setting with effective organizational system. The Blueprint adds that as an archipelagic nation, national logistics policy should be one that treats the sea as the connector, instead of separator, of thousands of islands that made up the country. Thus, the national logistics system development will be based on the concepts of front land and hinterland. The front land is the territory directly bordering on other countries or international waters while the hinterland is the territory of land and sea surrounded by the front land. The hinterland is the full sovereignty of Indonesia. However, in the hinterland, foreign ships are allowed to pass Indonesia’s waters along the corridor of up to 25 miles to the right and to the left of the Indonesian Archipelagic Sea Lanes (Alur Laut Kepulauan Indonesia) in accordance to the international rules (innocent passage) but they are not allowed to carry out economic and fishing activities. The establishment of the two international hub ports (Kuala Tanjung in the west and Bitung in the east) has to do with this concept. 12 State of Logistics Indonesia 2013 Section 1 The concepts of front land and hinterland are a strategic leap in the logistics sector to improve the competitiveness of local products on the domestic market. In addition, they are also the catalyst to in the transformation of International Hub Ports into Logistics Ports, i.e. facilities to support the flows of goods replacing the port function as a place for cargo loading and unloading. In micro terms, the concepts also crystallize two logistics related issues, at least, i.e.: (a) development of Short Sea Shipping (SSS) ports in Java, Sumatra, Kalimantan, Sulawesi, Nusa Tenggara and Papua as the alternative to developing increasingly expensive road infrastructure often hampered by land acquisition problems, and (b) development of Logistics Support in the deep sea hinterland to support Indonesia’s marine resources exploitation in the EEZ. The Blueprint reiterates the previously referred national policies and it also translates them into lists of action plans and targets for 2012-2015; 2016-2020 and 2021-2025 together with the ministries/agencies and local governments responsible for the tasks. It stresses that these policies are to actualize Indonesia as a maritime nation, through “Vision 2025: Locally Integrated, Globally Connected for National Competitiveness and Social Welfare�. The phases of National Logistics System development for 2011-2025 are undertaken in a gradual and sustainable manner as Table 2.1 below shows. Table 2.1 Milestones for Implementation Phases Performance/ Phase I Phase II Phase III Key Driver (2011-2015) (2016-2020) (2021-2025) Key Commodities • Establishment of Regional • Establishment of Provincial • Effective operation of Buffer Distribution Centres for Basic and Distribution Centres for Basic Logistics Network for Basic Strategic Commodities in each and Strategic Commodities in and Strategic Commodities in Economic Corridor Consumer Provinces each Economic Corridor • Revitalization and development • Establishment of Supply • Effective and efficient global of export commodity supply chain chain network with Indonesia’s supply chain network for networks business partners export commodities • Improved effectiveness of dry •Inland FTA established •Domination of the term of ports’ operations trade FOB for imports and CIF for exports Logistics Actors • In each economic corridor, there • In each economic corridor, PLs • National PLs and PJLs as (PL) and Logistics exist reliable and competitive and PJLs are reliable regional world class players Service Providers PLs and PJLs as local and national players (PJL) players • In each province, logistics SMEs • In each economic corridor, there and cooperatives are reliable exist reliable and competitive and competitive local and logistics SMEs and cooperatives as national players local and national players • PJL SOEs are reliable players in • Increased role of PJL SOEs (Posts, rural and national logistics BGR, Bulog, etc) in rural and • Commercial SOEs serving as national logistics world class trading house (world • Revitalization of Commercial class players) SOEs serving as trading house for basic and strategic commodities and export commodities State of Logistics Indonesia 2013 13 Section 1 Transport • Completion and formalization • Development of international • Effective integration Infrastructure of detailed design of international hub seaports for the Indonesian between international hub hub seaports for the Indonesian Eastern Region in Bitung and for seaports and main ports, Eastern Region in Bitung and for the Indonesian Western Region collector ports and feeder the Indonesian Western Region in in Kuala Tanjung ports and economic growth Kuala Tanjung • Development of air cargo ports centres; • Designation of international hub in Manado, Bali, Balikpapan, • Effective and efficient airports in Jakarta, Kuala Namu Morotai, and Biak operation of international and Makassar • Operability of 24/7 service cargo airports • Operability of 24/7 service delivery model for air cargo at • Effective operation of sea delivery model for air cargo at Main Airports transport functioning as Soekarno-Hatta Airport • Establishment and effective and national backbone transport. • Actualization of scheduled short efficient operation of interisland • Effective operation of sea shipping (SSS) operations and sea transport networks to railway as the main alternative routes at Pantura and Lalintim actualize sea transport as to cargo transport in Sumatra to promote sea transport national backbone transport Indonesia as national backbone transport • Establishment of Trans-Java • Trucking, river, lake and • Improved role of trains to handle and Trans-Sumatra and Railway crossing transports become long-distance cargo transport in connecting production centres to an integral part of the Java and Sumatra transport nodes multimodal transport system • Improved synergy and • Increased role of trucking, river, in promoting local and effectiveness of trucking, river, lake and crossing transports as national connectivity lake and crossing transports to part of multimodal transport in • Establishment of multimodal actualize multimodal transport each economic corridor transport networks system • Development and connectivity connecting logistics nodes. • Establishment of multimodal of multimodal transport terminals and logistics centres at networks between international main airports and seaports in each hub ports, main sea ports and economic corridors main airports and growth centres and dry ports ICT Infrastructure • National e-logistics system • Operability of INALOG • Integration of INALOG into (INALOG) established connected to the ASEAN regional the global logistics network logistic network HR Management • Organized and implemented • Most logistics workers in • All logistics workers in national logistics profession Indonesia hold internationally Indonesia hold internationally education and training system recognized national logistics recognized national logistics in accordance to international certificates and/or logistics certificates and/or logistics standards related certificates issued by related certificates issued by accredited institutions accredited institutions Laws and • Synchronization of national • Synchronous regulations and • Synchronized laws and Regulations logistics regulations and policies policies between sectors and regulations (national logistics to promote efficient export-import between regions (national, local law) enabling efficient activities and interregional) smooth flows of domestic and • Strengthening of regulation and • Regulation and policy international cargoes policy implementation enforceability • Effective implementation of national logistics regulations and policies Institutions • Establishment of a National • Improved role of logistics • Establishment of a Logistics Task Team supervising institutions at the National and permanent institution the implementation of SISLOGNAS ASEAN levels operating and coordinating Blueprint which also serves as a • Improved role, coordination the National Logistics System Damage Control Unit and synergy between logistics •Improved role, coordination • Improved role, coordination associations and stakeholders at and synergy between logistics and synergy between local and the regional and global levels associations and stakeholders national logistics associations and at the regional and global stakeholders levels Source: The Blueprint of National Logistics System Development (SISLOGNAS)
 14 State of Logistics Indonesia 2013 Section 1 The SISLOGNAS Team has established task forces according to each of these key drivers, and the action plans and target for each of them are also detailed in the Blueprint. In addition to coordinate and monitor the implementation of the national logistics policies implementation, the SISLOGNAS Team is also tasked to establish a mechanism through which policies implementation progress can be measured and tracked overtime using indicators as the improvement of reliability, efficiency (lead time) and cost of the national logistics performance. It is paramount to establish national logistics performance indicators, related to the progress made through each of the task forces of the key drivers. 2.5 Closing Remark This National Logistics System Blueprint provides the vision, strategies, policies, implementation phases and action plans related to government policy on National Logistics System establishment and development to improve the flows of goods at home and from and to other countries effectively and efficiently. As such, it (a) provides guidelines in preparing government policy to establish and develop Indonesian logistics sector thus improving national business’ competitiveness on the global market and public welfare, (b) helps the national and local governments prepare development plans thus optimizing the use of limited national resources while significantly improving the performance of the National Logistics System, (c) improves transparency and coordination among ministries and agencies and other relevant stakeholders, and (d) indicates investment opportunities for medium, small and micro enterprises and for national logistics service providers to establish cooperation on a global scale. The SISLOGNAS is expected to contribute to the realization of goals of the National Mid- Term Development Plan (RPJMN) 2010-2014, to support the implementation of MP3EI, thus, actualizing Indonesia’s economic vision 2025 (RPJPN), i.e. “Self-sufficient, advanced, just and prosperous Indonesia� with targeted per capita GDP of US$ 14,250-15,500 by 2025. As the main logistics activity is to ensure the flow of goods, the national policy does not only promote the “ship-follows-the-trade� but also the “ship-promotes-the-trade� policies to balance the cabotage traffic due to Indonesia’s vast geographic span whereby access to some areas and regions is limited. The policy is also to give priority to basic and strategic goods distribution throughout the archipelago to minimize their price disparities/availability due to geographical and cyclical issues. The logistics policy includes also the empowerment of logistics actors (such as producers, wholesalers, distributors, agents and retailers) as well as the logistics service providers. State of Logistics Indonesia 2013 15 3. National Logistics Costs Until now Indonesia has not measured its national logistics performance both in terms of logistics cost and other logistics indicators. The necessity of the national logistics cost performance, among others, is to evaluate the effectiveness and efficiency of the implementation of the blueprint of National Logistics System (SISLOGNAS) as officially issued by Presidential Regulation No. 26 year 2012. This chapter describes a framework to calculate Indonesia logistics costs. USA’s logistics cost model is chosen as a reference in developing the model of the Indonesia’s national logistics costs due to the simplicity of its cost structure and components, and the appropriateness with Indonesian situation. Even though it will be modified in accordance with the data availability and it will be combined and modified with South Korea’s model and South Africa’s model. Using the proposed model and the availability of data, it shows that during the period 2004-2011 the Indonesia logistics costs decreased 2.97% of GDP, from 27.61% of GDP in 2004 to 24.64% of GDP in 2011. The average of Indonesian logistics costs during 8 years is equal to 26.03 % of GDP, for which transportation cost component give the biggest contribution (12.04% of GDP) to the Indonesia logistics costs, administration cost component (4.52% of GDP) give the lowest, and the contribution of the inventory costs ( 9.47% of GDP) was in the middle position. The transportation costs were dominated by land transportation (72.21%); rail transportation (only 0.51%) gave the lowest contribution, while the inventory cost was dominated by holding cost (49.37%). 3.1 Background In conventional business view, logistics is frequently considered as a supporting activity to production and marketing; the function of logistics is in this view related to procuring and storing raw material needed for production processes, and to distributing finished good to the consumers. However, following the global trade liberation, since three decades ago, the role of logistics in reshaping the business competitiveness has changed. The competitiveness is not only based on the product/goods, but it also has been shifted into the competition between one company and other companies, even between company networks. Each of which is supported by each respective government. In response to this change, the Indonesian government has issued Presidential Regulation No.26 year 2012 concerning the Blueprint of National Logistics System (SISLOGNAS) 16 State of Logistics Indonesia 2013 Section 1 The vision 2025 of SISLOGNAS is “Locally integrated, globally connected for national competitiveness and social welfare�. It is expected that SISLOGNAS can provide needed and appropriate contribution in the achievement of Indonesian economic vision as stated in MP3EI that is “a self-sufficient, just, and prosperous Indonesia�. It means that in Indonesia the role of logistics is not only to flow goods effectively and efficiently but also to increase business competitiveness and economics growth. Besides that, it also has a strategic role for increasing social welfare and for strengthening Unitary State of the Republic of Indonesia. It is a fact, however, that Indonesia’s national logistics system performance in general is still not optimal and needs to be improved as indicated by the World Bank’s Logistics Performance Index (LPI) and shown in Figure 3.1. In 2007 the LPI revealed that Indonesia ranked of 43rd out of 155 countries surveyed, it was lower than some ASEAN countries i.e. Singapore (1st), Malaysia (27th) and Thailand (31st). The Indonesia rank decreased in 2010 as the LPI showed the rank became 75th out of 155 countries surveyed, lower than those of some ASEAN countries i.e. Singapore (2nd), Malaysia (29th) and Thailand (35th) and it was even lower than those of the Philippines (44th) and Vietnam (53rd). In 2012, the LPI of Indonesia rank considerably increased into 59th out of 155 countries surveyed, it was still lower than those of some ASEAN countries i.e. Singapore (1st), Malaysia (21st), Thailand (38th), the Philippines (52nd) and Vietnam (53rd). Figure 3.1 Indonesian Logistics Performance Index Source: Logistics Performance Index, World Bank Figure 3.1 clearly demonstrates that in 2012 the LPI of Indonesia was quite poor compared with other ASEAN member countries. Indonesia’s position was only above Laos, Cambodia, and Myanmar which were in the category of low income countries, while Indonesia was in the category of lower middle income. According to LPI Vietnam’s position was above Indonesia’s even though Vietnam was in the category of low income. Based on various sources, Table 3.1 represents Indonesia’s national logistics costs compared with those of advanced and ASEAN Countries. State of Logistics Indonesia 2013 17 Section 1 Table 3.1 Indonesian Logistics Costs Among Advanced and ASEAN Countries Country Logistics Cost (% of GDP) United State of America 9,9 Japan 10,6 South Korea 16,3 Singapore 8,0 Malaysia 13 Thailand 20 Vietnam 25 Indonesia 27 Source: Various sources The Indonesia logistics costs could be up to 27% of the Gross Domestic Products (GDP) and its service quality was poor as stated in the SISLOGNAS (2012). The poor quality was indicated by: inadequate infrastructure, both quantitatively and qualitatively; prevalence of illegal charges and transaction fees causing high cost economy; poor export and import processing lead time, and bottlenecks on port services; inadequate service capacity and networks supporting national logistics providers; chronic difficulties in stocks management and price fluctuation of basic commodities particularly during national and religious holidays; and, in addition significant price disparity in border, remote and outer areas. Even though Indonesia knows Logistics Performance Index (LPI) from the World Bank publication, until now Indonesia has not measured its logistics performance both in terms of logistics costs and other logistics indicators. At macro level there is the necessity to evaluate the national logistics cost performance and the effectiveness and efficiency of the implementation of the blueprint of SISLOGNAS. Subsequently it can be used to identify problems, challenges and opportunities and to synchronize appropriate policy and action plans both in public sector and in private sector and even between central and local government. In the operational level, the logistics cost indicator could be used to reduce operating costs and to increase logistics services which then can increase the flow of goods. Thus the flow of goods can be delivered more rapidly, reliably, and cheaply, and subsequently can increase business competitiveness. 3.2 National Logistics Cost Model According to Rushton et al (2006) in Pishvaee et al (2009) the logistics cost components consist of carrying costs, storage costs, packing costs, consolidation costs, transportation costs, inventory costs, information costs, and controlling costs. Meanwhile according to Zeng and Rosseti (2003) the logistics cost components consist of transportation costs, carrying costs, administration costs, tax, risk and damage costs, handling costs and packing costs. In reality, each country has its own model and method in calculating its national logistics costs, even though generally they use three categories of logistics cost components: transportation costs; inventory costs; and administration costs. 18 State of Logistics Indonesia 2013 Section 1 The calculation of the logistics costs of the USA is done by using CASS Information Systems, Inc. This was firstly published by Heskett et all in 1973, then it was improved by Delaney using the transportation costs, the inventory costs, and the administration costs as the major cost components. The South Korean national logistics costs is done by KOTI (Korea Transport Institute), which uses transportation costs, inventory costs, packing costs, handling and loading/unloading costs, information costs, and administration costs. South African logistics costs is done by CSIR (Council for Scientific and Industrial Research), and the components consists of transportation costs inventory costs, and management and administration costs. Therefore, as a consequence, national logistics costs are not fully comparable among countries. The basis for the calculation of national logistics costs in USA, South Korea, and South Africa is presented in Table 3.2. Table 3.2 USA, South Korea, and South Africa Logistics Cost Model Country US of America South Korea South Africa Institution CASS Information KOTI (Korea Transport CSIR (Council for Systems, Inc. Institute) Scientific and Industrial Research) Cost Components Transportation costs Transportation costs Transportation costs Inventory costs Inventory costs Warehousing costs Administration costs Packing costs Inventory costs Handling and loading/ Management and unloading costs administration costs Information costs Administration costs Source: Center for Logistics and Supply Chain Studies, Institut Teknologi Bandung (ITB) 3.3 Indonesian Logistics Cost Model Apparently, not only in Indonesia but also in other countries, the availability of data is one of the major problems for developing a model of calculating national logistics costs. That is why each country has its own model and method in calculating its national logistics costs. Due to this problem the Indonesian logistics cost model has to be developed which is based on the availability of data that can be obtained regularly from related institutional agencies, both public and private. USA’s logistics cost model is chosen as a reference in developing the model of the Indonesia’s National Logistics Costs due to the simplicity of cost structure and components, and the appropriateness for the Indonesian situation. Even though, it will be modified in accordance with the data availability and it will be combined with South Korea’s model and South Africa’s model. Figure 3.2 describes schematically the Indonesia Logistics Cost Model. Based on USA logistics cost model, the Indonesian National Logistics Cost components can be classified into 3 categories; they are transportation cost, inventory cost and administration cost: OL = OT + OI + OA State of Logistics Indonesia 2013 19 Section 1 Remark: OL : National Logistics Costs (% GDP) OT : Transportation Costs (% GDP) OI : Inventory Costs (% GDP) OA : Administration Costs (% GDP) Figure 3.2 Framework of Indonesia Logistics Cost Model Source: Center for Logistics and Supply Chain Studies, Institut Teknologi Bandung (ITB) For calculating each cost component, both South Korea logistics cost model and USA’s logistics cost model are used. South Korea’s logistics cost model is used for calculating the transportation cost and inventory cost, and USA’s logistics cost model is used for calculating transportation and administration cost. South Africa’s logistics cost model is used for classifying the business sector, because of the similarity between Indonesia and South Africa as natural resources (agriculture and mining) producing country. 3.4 Analysis of Indonesian Logistics Cost Using the availability of secondary data from various sources and according to the Indonesian logistics cost model as proposed, the estimation of the Indonesian logistics costs from 2004 to 2011 is presented in the Table 3.3. It shows that during the 8 years there was a slight improvement of the performance of Indonesia’s logistics costs ( 2.97% of GDP ) from 27.61% of GDP in 2004 to 24.64% of GDP in 2011. It means that in average there was 0.37% of GDP annual improvement in Indonesia logistics costs. 20 State of Logistics Indonesia 2013 Section 1 Table 3.3 Estimation of Indonesian Logistics Costs 2004-2011 2004 2005 2006 2007 2008 2009 2010 2011 GDP (Billion 2,295,826 2,774,281 3,339,217 3,950,893 4,948,688 5,606,203 6,436,270 7,427,086 Rp) Logistics Costs 633,845 762,884 961,185 1,016,611 1,238,410 1,397,267 1,543,793 1,829,669 (Billion Rp) Logistics 27.61 27.50 28.78 25.73 25.03 24.92 23.99 24.64 Costs (%) Source: Center for Logistics and Supply Chain Studies, Institut Teknologi Bandung (ITB) The breakdown of Indonesian logistics costs for each component (transportation costs, inventory costs, and administration costs) is presented in the Figure 3.3. It shows that in average the transportation cost component gives the biggest contribution (12.04% of GDP) to the Indonesia logistics costs, and administration cost component gives the lowest (4.52% of GDP). Figure 3.3 Breakdown of Indonesian Logistics Cost For Each Component Source: Center for Logistics and Supply Chain Studies, Institut Teknologi Bandung (ITB) Year Cost (% of GDP) 2004 2005 2006 2007 2008 2009 2010 2011 Average Transportation 12.57 12.81 13.28 12.28 11.04 10.89 11.83 11.63 12.04 Costs Inventory Costs 10.24 9.92 10.51 8.99 9.64 9.71 8.00 8.73 9.47 Administration 4.79 4.77 5.00 4.47 4.34 4.33 4.16 4.28 4.52 Costs Total Logistics 27.61 27.50 28.78 25.73 25.03 24.92 23.99 24.64 26.03 Costs State of Logistics Indonesia 2013 21 Section 1 Figure 3.3 shows the trend of Indonesian logistics cost, while the increment of the total amount of Indonesian logistics cost from year 2004 to 2011 is shown in Table 3.4. Table 3.4 Logistic Cost Increment, Interest Rate, and BBM Price Year Logistics Cost Increment (%) Interest Rate (%) Fuel Price (USD/l) 2004 - 14,10 0,275 2005 20.36 14,98 0,275 2006 25.99 14,98 0,575 2007 5.77 12,93 0,575 2008 21.81 13,85 0,600 2009 12.83 12,56 0,437 2010 10.49 10,81 0,505 2011 18.52 10,58 0,517 Source: Center for Logistics and Supply Chain Studies, Institut Teknologi Bandung (ITB) As shown in the Table 3.4, the significant increment of Indonesian logistics costs happened in 2006 (25.99% from 2005), 2008 (21.81% from 2007) and 2011 (18.52% from 2011). From economic point of view, the significant increment in 2006 and 2008 are highly correlated with the fuel (BBM) price adjustment that increased from USD 0.275 to USD 0.575 in 2006, and from 0.575 to USD 0.600 in 2008. Fuel (BBM) price adjustment cause the significant logistics costs as the transportation cost component which was the biggest logistics cost component. The imbalance in using different transportation modes - with a large domination of land transportation, as shown in the Table 3.5, reinforced the contribution to the transportation costs in Indonesia. Table 3.5 Breakdown of Transportation Cost Year Land Water Air Rail Services 2004 66.71% 21.58% 0.77% 0.62% 10.32% 2005 74.24% 17.02% 0.74% 0.59% 7.40% 2006 71.76% 20.27% 0.75% 0.49% 6.73% 2007 75.63% 16.99% 0.85% 0.43% 6.11% 2008 78.13% 14.81% 1.58% 0.41% 5.07% 2009 69.51% 22.59% 1.78% 0.58% 5.54% 2010 70.96% 22.01% 2.31% 0.46% 4.26% 2011 70.70% 22.04% 2.70% 0.51% 4.06% Average 72.21% 19.66% 1.44% 0.51% 6.19% Source: Center for Logistics and Supply Chain Studies, Institut Teknologi Bandung (ITB) The increase of the interest rate from 12.93% to 13.85% in 2008 also influenced the significant increment of the logistics costs in 2008, because the inventory cost component was dominated 22 State of Logistics Indonesia 2013 Section 1 by 49.37% holding cost (Table 3.6). From this phenomenon, it can be concluded that premium (BBM) price and interest rate have high correlation with the Indonesian logistics costs. Accordingly, it could be used as an indicator to predict the Indonesian logistics costs. Table 3.6 Breakdown of Inventory Cost Year Holding Cost Risk & Damage Cost Storage Cost 2004 56.87% 21.51% 21.62% 2005 58.35% 20.77% 20.88% 2006 58.35% 20.77% 20.87% 2007 50.47% 20.82% 28.72% 2008 50.87% 19.59% 29.54% 2009 51.47% 21.86% 26.67% 2010 46.15% 22.77% 31.08% Average 49.37% 24.89% 25.75% Source: Center for Logistics and Supply Chain Studies, Institut Teknologi Bandung (ITB) 3.5 Closing Remark During the period 2004-2011 there was slight improvement of the performance of Indonesia logistics costs ( 2.97% of GDP ) from 27.61% of GDP in 2004 to 24.64% of GDP in 2011; it means that in average there was 0.37% of GDP annual improvement in Indonesia logistics cost. In 2011, national logistics costs constituted 25.03% of GDP, lower than average. The average of Indonesian logistics costs during 8 years (2004 to 2011) was 26.03 % of GDP, of which transportation cost component provided the largest contribution (12.04% of GDP); administration cost component (4.52% of GDP) had the lowest contribution, and the contribution of the inventory costs (9.47% of GDP) was in the middle position. The transportation costs were dominated by land transportation costs (72.21%); rail transportation (only 0.51%) gave the lowest contribution; the inventory costs were dominated by holding costs (49.37%). From economic point of view, the significant increment of total amount of national logistics costs was highly correlated with the fuel (BBM) price adjustment; accordingly, it could be used as an indicator to predict the Indonesian logistics costs. State of Logistics Indonesia 2013 23 Section 2 Logistics Case Studies 4. Reducing Dwell-Time of Import Containers in Tanjung Priok 4.1 Background Import containers stay too long at the container terminals in Indonesia, negatively affecting logistics costs and having a serious adverse effect in terms of logistics costs for domestic busi- nesses and the prices paid by consumers. This fact is well acknowledged by the Government of Indonesia, as underlined by Indonesian Port Corporation (IPC) president director Richard Joost Lino, who was quoted during the ceremony marking the start of the development of the Kalibaru Port in North Jakarta: “This is a historical moment for Indonesia because we have not expanded [the existing] Tanjung Priok Port for 130 years despite container traffic increasing at around 24 percent annually. We are committed to providing the best service in this port and to reducing dwell-time from 6.2 days to 3 days�6. This case study describes dwell time (DT) in Tanjung Priok, including ways to reduce DT. 4.2 Tackling Import Container Dwell-Time in Tanjung Priok7 As trade and the traffic of shipping containers continue to grow, Indonesia’s main port of entry appears to be buckling under the pressure to keep up. According to the latest estimates, the average import container DT at Tanjung Priok has increased from 4.8 days in October 2010 to 6.4 days in November 2012 (Figure 4.1). 6 Yudhoyono kicks off RI’s largest port project, The Jakarta Post, March 23, 2013. 7 The information in this case description is also presented in the World Bank’s Technical Note “Tackling Import Container Dwell-Time in Tanjung Priok� (March 2013). 26 State of Logistics Indonesia 2013 Section 2 Figure 4.1 Dwell time at Tanjung Priok in period January 2011-June 2012 Source: Jakarta International Container Terminal (JICT) DT measures the time from the moment the container is unloaded from a vessel until it leaves the gates of the Jakarta International Container Terminal (JICT). This is a 33 percent increase on DT measured in October 2010 (4.8 days), which is worrying given that Tanjung Priok han- dles over two-thirds of Indonesia’s entire international trade and total container traffic fore- cast is expected to grow by over 160 percent by 2015 according to Pelindo II estimates. This situation is likely to be even worse at the other terminals of the port. The deterioration of DT in Indonesia’s most important international port adversely affects the country’s economy in three ways. First, export-oriented industries are impacted by uncertain- ties due to the delays, reducing the competitiveness of Indonesian products abroad. Just-in- time inventory in manufacturing, in which firms tightly manage their schedules for import- ing raw materials and re-exporting finished goods, suffers even more, hampering Indonesia’s transition to becoming an integral part of efficient worldwide supply-chains. It is important to note that about 19 percent of the inputs for foreign and export-oriented firms are imported. Second, the bottlenecks at the port have serious consequences in terms of costs for domestic businesses and ultimately in the prices paid by consumers. Lastly, Tanjung Priok is an integral part of the city environment, and the blockages add to the already dysfunctional traffic, which in turn also worsens the congestion in the port. As an example, the recent city floods caused the dwell-time to rise to 8 days in January 2013. In order to keep up with the projected increases in trade, and to compensate for urban and infrastructure constraints, further time-saving efficiencies will need to be found in the very near future if DT is not to lengthen further. Understanding the reasons for the lengthening time needed in clearing and removing containers from the port becomes essential. DT can be broken in three components: upstream (between the arrival of the ship and the submission of the import declaration to Customs); Customs clearance; and downstream (from Customs clearance until leaving the gates of the JICT). The import processes from phase to phase are explained below (Box 4.1). State of Logistics Indonesia 2013 27 Section 2 Box 4.1 Import Processes at Tanjung Priok • The shipping line company prepares a manifest, a document that contains information about the containers and their owners, and submits it to Customs 24 hours before arrival, as required by Indonesian regulations. • Customs acknowledges this document by issuing a BC 1.1. form. The serial number of the form is used in the submission of the import declaration (PIB). • The importer (or its freight forwarder, FF) obtains the BC 1.1. information from the shipping line. In theory, the BC 1.1. information could be obtained from the shipping line before the arrival of the ship, but the fact is that it is usually acquired by the FF once the vessel has docked in the port. As most of the ships arrive over the weekend Friday-Sunday, most of the FF obtain this information the following Monday, which con- stitutes an important source of delay to the upstream component of dwell-time. • In addition to the BC 1.1. serial number, the FF needs to collect all the supporting paperwork that could include documents issued by the Quarantine agency, BPOM (National Agency for Drug and Food Control), Ministry of Agriculture, Ministry of Trade and others. This process could include providing data to the dif- ferent online systems of the agencies, obtaining hardcopies from others as well as payments of non-tax revenues, depending on the requirements of each agency. • Information regarding the approvals and status of requests from FF to these agencies is usually updated through the Indonesian National Single Window (INSW), which operates mostly as a portal to obtain up- dates and information about the status of the process in different government agencies. Most of these documents can be obtained before the arrival of the vessel, except for the goods requiring further analysis, lab tests and inspections after arrival (e.g. some food categories, pharmaceuticals, etc) • Once the FF has the set of documents and approvals from the relevant agencies, the FF drafts a PIB by do- ing a self-evaluation of the goods imported and calculating the amount of duties and taxes to be paid to Customs. • With this estimation, the FF pays at the Bank and awaits for a confirmation of the receipt of the funds from Treasury. Although confirmation from Treasury to the bank on the receipt of the funds is electronic, this transfer of funds only happens once a day, yet creating another source of delays. • With the confirmation of the payment, the FF can submit the PIB to Customs via EDI, starting the Customs Clearance process. • Based on the importers information, the type of imported goods , the country of origin, the tax profile of the company and other factors, Customs then assigns one of the five risk categories available. Depending on the risk channel assigned, the importer will obtain a different treatment for Customs clearance, thus determining the length of the stay in the port from there on. • Indonesian risk management has the standard 3 channels one would expect to find in other countries that resemble a traffic light (i.e. green, yellow and red) and 2 additional special channels, MITA Prioritas and MITA. The green channel usually means the importer obtains clearance without further revisions, yellow means document inspections and red means physical and document inspection. Average times for these channels are 5.8 days for green, 6.8 for yellow and 8.6 for the red channel (as of February 2012). • Mita Prioritas and Mita are special channels for pre-approved importers. These importers have complied with a specific set of Customs requirements, including exemplary tax history records, minimum capital limits and recurrent and periodic import of goods, among others. The benefits for these importers have a real impact on dwell-time, especially for Mita Prioritas companies. Importers under this category have their taxes and duties deferred and are not required to submit the BC 1.1. in the PIB submission. • Mita importers do not have these benefits, but they are waived from submitting hard copies to Customs after removing the container from the port. For dwell-time purposes, Mita importers have the same treat- ment as green channel importers. • On the downstream stage, after obtaining Customs clearance, the FF arranges for transportation of the containers and pays the port handling and storage fees. • The FF obtains the final invoice (SP2) from the terminal (JICT) and has about eight hours to pay and leave the premises before the bill expires. Since most banks do not operate 24/7, most of the payments occur in the mornings, yet adding another source of delay to the process. • After the removal of the container from the port, the importers, except Mita and Mita Prioritas, have 3 days to submit hardcopies of their import declaration and supporting documentation to the archives of Customs in the port. 28 State of Logistics Indonesia 2013 Section 2 Contrary to widespread perceptions of poor performance of Customs and abuses of port fa- cilities by importers, a recent study from the World Bank in collaboration with the Institut Teknologi Bandung (ITB), shows that the main cause of the delay is the pre-clearance stage, accounting for 58 percent of DT (Figure 4.2). Although many sources of delay can be seen throughout the import process, focusing on the efficiency gains on the upstream component could highly impact the overall dwell-time average of Tanjung Priok. The Customs clearance average time is already very competitive by international standards, accounting for approxi- mately 1 day. On the downstream component, a faster removal of the containers would re- quire larger investments in infrastructure to improve road connections and probably a deeper transformation of the trucking industry. Figure 4.2 Dwell-time components Source: Jakarta International Container Terminal (JICT) and DG Customs 4.3 Analysis and Discussion Understanding the reasons behind the large number on days in upstream processes would bring the highest returns to the efforts on reducing dwell-time. In consultation with private sector8, Government agencies9 and academia10, the World Bank came across some explana- tions for the delays on the upstream component: 8 Terminal operators, trucking companies, freight forwarders, banks, customs brokers, importers and shipping lines. 9 DG Customs, Menko, Ministry of Trade, Ministry of Transport, Cabinet Secretary and Bappenas. 10 Mostly Institut Teknologi Bandung (ITB) and Institut Teknologi Sepuluh Nopember of Surabaya (ITS). State of Logistics Indonesia 2013 29 Section 2 1. 24/7 is not working • A large percentage of the vessels arrive on Saturday and Sunday, averaging 38% of the total of containers that arrive in one week (Monday through Sunday). • Most of the freight forwarders, shipping line companies and banks do not work over weekends or after business hours, pushing the submission of the import declaration (PIB) until the following Monday, delaying the start of the clearance process. Thus, while the number of container increases, the number of submissions for the customs clearance stage decreases (Figure 4.3). • Customs services are only available on request during weekends or after business hours, thus adding an extra step if the importer wants to clear its good during the weekend. Figure 4.3 Average percentage of container arriving in Tanjung Priok vs. Average of Import declaration submissions Source: Jakarta International Container Terminal (JICT) and DG Customs, May 2012 2. Delay on the submission of the import declaration • There is a significant delay on the submission of the manifest to Customs from vessels coming from transhipment in Singapore or Malaysia. These routes sometimes have very few hours to consolidate the manifest, thus this information is delivered only a few hours before the vessel docks in Tanjung Priok and sometimes even after the vessel has already docked. The manifest information (BC1.1.) is needed to submit the PIB, thus the delay on obtaining the BC 1.1. impacts the time at which the customs clearance process starts. • The priority risk channel (i.e. MITA Prioritas) has a relative short dwell (average of 4 days) but they only account for 16% of the containers and consist of a limited group of 105 im- porters. Importers on this risk channel are allowed deferred payments for customs duties and taxes, and they do not need to submit the Manifest number in the import declaration, 30 State of Logistics Indonesia 2013 Section 2 thus the submission of the import declaration occurs earlier than in other channels. The number of importers in this group has not changed in recent years, so an effort to increase its members or adopt more flexible policies regarding the BC1.1. information and intro- ducing other payment options would increase the efficiency gains in dwell-time. 3. The Indonesian National Single Window (INSW) is not yet an optimal one-stop services facility for import clearance • The INSW is a limited space for notifications and status information from each institution. Customs clearance and other border agencies’ document requirements function in sepa- rate systems and are not integrated into a seamless process. On well-functioning single windows, users submit the information required by several agencies in a single entry, with a single sign-on, including payments. This system reduces physical interactions and paper- based transactions. • Payment processes need to be done separately for all Government Agencies and port institutions, including payment of import duties, taxes, agencies’ fees, terminal operator charges and others. • The Quarantine Agency does not have access to the information on the arrival of the ves- sel. An estimate of 15% of total import containers requires quarantine documentation and approvals. Some imports also require entry permits and unloading permits, so in the absence of pre-arrival information, the work performed by the Quarantine agency relies heavily on the importer. Despite the increase of average DT over the last year, Pelindo II, the container terminal opera- tors and the Government have made some efforts to revert the situation including: • Abolishment of cash payments on container terminal premises and introduction of ATM transactions. Although not yet optimal, reducing cash transactions is a first step on reduc- ing delays on the downstream component. • Shifting the day of exchange rate publication from Monday to Thursday or Friday. This shift would allow the importers to submit the PIB before the weekend with the most up- dated information. In the past, the exchange rate would be published on Monday which would yet give another reason to delay the submission of the import declaration. • The introduction of i-care system (integrated cargo release) was recently launched in Tan- jung Priok to integrate all services on the downstream component. The system tries to eliminate the face-to-face interactions between the drivers of the trucks and the customs officials at the gate. The trucking company will use an e-card for passing through the au- tomatic gate, and customs will print such an e-ticket for tacking the containers out/in the port. Services include e-Delivery Order, e-billing for cargo stay at the port, ordering the truck online, and the e-ticket for entrance and exit of the port. The trial has been imple- mented in TPK Koja since November 2012 and it is also integrated with the INSW, and would mostly impact the downstream component. State of Logistics Indonesia 2013 31 Section 2 • Although not yet launched, the Government is setting up an Integrated Physical Inspec- tion Facility (TPFT) which will allow Customs, Quarantine and BPOM to have inspections at the same time, reducing the movement of containers and allowing for faster physical inspection times on the yellow and red channels. The TPFT is being developed in conjunc- tion with Pelindo II and all the Government agencies and it is supposed to be launched in the first quarter of 2013. This initiative would help reduce the average dwell-time of containers falling into the yellow and red channels. 4.4 How to Reduce DT ? Since the beginning of the study in November 2010, the World Bank has attended several rounds of discussions with Customs, Pelindo II, academia, container terminals, association of shippers, association of importers, banks and other Government agencies based in the port. The discussion has even reached the Secretary of the Cabinet, the Ministry of Finance, Min- istry of Transportation and Ministry of Trade. Some of the conclusions reached to reduce the upstream component of dwell-time are as follows: 1. Consider to increase the number of importers on the MITA Priority lane An assessment by DG Customs on the options to increase numbers of MITA Priority importers is an important step to facilitate eligible importers to access the channel. Given the strong prospect for Indonesian manufacturers to join the regional production network, discussing with key stakeholders on establishing clear, reasonable, and transparent criteria for importers to join MITA Priority channel will help improve competitiveness of Indonesian manufacturers. 2. Allow for more parallel processes to take place during the Customs Clearance component More flexible procedures that can happen in parallel, instead of sequencing the steps, could potentially help on reducing times for the preclearance component. For example, allowing the payment to happen before the clearance (SPPB) but after the submission of the PIB. Currently, the importer has to pay all duties and taxes to Customs before starting the clearance process. Another parallel process that would help reducing dwell-time, would allow for the input of the BC1.1. information before the SPPB but after the submission of the PIB. This information is needed to match the contents of the ship with the importer claim of the containers. Parallel processes that would let the clearance process start while the matching of the information on the containers would also help on the reduction of steps of the upstream component. 3. Provide incentives for early submission of the import declaration • DG Customs and terminal operator need to socialize the early submission of import dec- larations to importers and freight forwarders. A good communication campaign aligned with incentives for early submission might encourage importers to start the pre-clearance process. • Incentives for early submission of the import declaration could include tax discounts, du- ties discounts, as well as reduced tariffs in the container terminal fees. Such incentives might encourage freight forwarders and importers to compensate for the cost of operat- ing over Saturday and Sunday. 32 State of Logistics Indonesia 2013 Section 2 • Perform evaluation and profiling of freight forwarders by DG Customs to identify and pe- nalize those companies that delay the submission of the import declaration. • Improve 24/7 services by introducing service-level agreements between the terminal op- erator and the shipping lines, to encourage operations over weekends. Government agen- cies could reach a similar agreement. 4. Improve INSW and introduce one-stop services • Improve the INSW or, as an interim step, develop a one-stop services space where vari- ous institutions have access to all information, including Quarantine, Customs and BPOM. • Implement a single payment for all import process, including all Government agencies fees, taxes and import duties, as well as all terminal charges. State of Logistics Indonesia 2013 33 5. Preliminary Assessment of Implementation 24/7 Program In Tanjung Priok Port 5.1 Background The objective of introducing 24/7 maritime port services (“the 24/7�) is to reduce conges- tion at maritime ports by extending the number of operating hours for handling sea cargo. In Indonesia, the 24/7 has been introduced since mid-January 2010. Various authorities and border control agencies accompanied with logistics service providers at ports have made their services available beyond their conventional business hours since the launch of the 24/7. The 24/7 operations are primarily use to reduce congestions at Port by balancing work load during the week or during peak time to off-peak time. Utilizing 24 hours a day and 7 days per week gives extra time for documents processing and clearance process, which lead to speed- up overall processes and prevent congestion at the port. However, from the World Bank preliminary assessment and interview to freight forwarders, the impact of 24/7 has been rather limited. They claimed it is due to lack of coordination among the port community, insufficient equipment for working at night time and stagnant “night time� demand growth among users. The Government of Indonesia has been supporting the concept of monitoring to evaluate the implementation status of the 24/7 and has shown interest to take the necessary actions to enhance the effectiveness of the 24/7 together with the port community. 5.2 Evaluation of 24/7 Operations at Tanjung Priok Port This section presents a summary of a preliminary assessment carried out by the World Bank in Jakarta aimed at analyzing and evaluating the existing condition of 24/7 operations at Tanjung Priok port. There are two main indicators to evaluate the 24/7 operations, these indicators are: 34 State of Logistics Indonesia 2013 Section 2 • Operations of 24 hours per day. This evaluation aims at operations beyond normal work- ing office hours (8.00 – 18.00). It is more focussed on hourly operations per day. • Operations of 7 days per week. This evaluation aims at operations during the weekend (Saturday and Sunday). This summary also analyzes the two main actors of 24/7 operations at the port of Tanjung Priok, namely 1) border crossing agencies (Customs, Quarantine and BPOM) and 2) terminal operators (Jakarta International Container Terminal or JICT). 5.3 Summary of Findings Currently, Customs is operating 24/7 but not effectively, while Quarantine and BPOM is not operating 24/7. The analysis showed that operations of 7 days per week deem to be more critical than operations of 24 hours per day. This is shown from data analysis that most con- tainers arrive during the weekend, while there are little activities from border agencies for the customs clearance process during the weekend. This should be the main focus of the Govern- ment of Indonesia in order to improve the operations of 24/7 at the port of Tanjung Priok. Figure 5.1 explains the importance of 7 days per week operations. Figure 5.1 Average Terminal Gate-out vs. Submission of Import Declaration and Customs Clearance (SPPB Release) Sources: Customs and JICT Note: Figure 5.1 explains the daily average of containers processed for customs clearance and containers going out of the terminal from Monday to Sunday. The data indicate less activities in the weekends comparing to working days during the week. The analyzed data suggest that there are no major improvements in 24/7 operations between October 2010 and March 2012. The 24/7 operations at Tanjung Priok port have been limited to terminal operations of loading and unloading containers and activities such as gate-out containers. However, administrative processes such as customs clearance and payments of duty and payments to the terminal operator have been limited to normal working hours only. State of Logistics Indonesia 2013 35 Section 2 About 36% of total containers arrived during weekend while only 5.5% of the number of docu- ments was processed for customs clearance during the weekend (Figure 5.2). This pattern of incoming containers arriving over the weekend (Saturday – Sunday) without being processed is creating an imbalance between in-bound and cleared containers adding to the dwell time of containers in the port. Implementation of a system of 24/7 operations would enable the processing of in-bound containers arriving during the weekend, reducing the dwell time at the port of Tanjung Priok. Figure 5.2 In-Bound Container vs. SPPB Release Container - Total for March 2012 Sources: Customs and JICT Note: Figure 5.2 explains the unbalance between the numbers of in-bound containers versus customs cleared containers from Monday to Sunday. The data indicate that the peak of in-bound containers is Saturday and Sunday, while only a small amount of containers had been cleared during the weekend by Customs. Private sector entities such as banks and shipping line offices are not implementing 24/7 pro- gram. • Banks that only accept payments of duty and payment to terminal operator have been limited to normal working hours (3.00 PM and half day on Saturday). • Shipping lines are also not open for 24/7 and do not have electronic payment facilities for the delivery order process (DO). This will affect the transaction of payment for releasing the DO to the consignees as the payment is limited to normal working hours. • Quick interviews of freight forwarders revealed that freight forwarders only operate at normal working hours (Monday to Friday) due to high costs of operation. Trucking com- panies will charge extra fee for delivery beyond 5 PM. However, most trucks are coming in or out of the port in Tanjung Priok at night time in order to reduce traffic congestion in the city (see Figure 5.4). • Quick interviews of importers revealed that importers do not feel any benefit of using 24/7 and limit operations during the weekend due to high costs involved; limited ware- house and storage are also reasons for low demand from importers to utilize 24/7 at Tanjung Priok port. This can also be seen from the data showing a drop in the import declaration submission (PIB) to low level during the weekend (Figure 5.1). 36 State of Logistics Indonesia 2013 Section 2 Figure 5.3 Average container gate-out for February 2012 Sources: JICT (February 2012) Note: Figure 5.3 explains the average number of containers gate-out from JICT terminal. The data indicate that the removal of containers is utilizing 24 hours operations to prevent traffic congestion in the city. There have been limited operations of 24/7 for Government Agencies. • Customs is operating for 24 hours per day but not in an effective way especially in quaran- tine processing. Only 8% of the containers get customs clearance after office hours (18.00 – 07.00). Figure 5.4 shows the average hourly customs clearance. • Customs cited insufficient equipment and staff limitations to perform physical checks at night (night time physical inspection only by request). Based on interviews with freight forwarders, customs officers working at night shift are not able to make final decisions. Thus, if the importers require a final decision, they must wait until next morning. • When the survey was conducted, the quarantine services and BPOM were not open on Saturday and Sunday. Both agencies were also only open during normal working time, not during 24 hours. • Coordination among the government agencies is still a challenge. Information technology sharing among them can efficiently schedule night shift for their staff and resources can be allocated according to the needs and requirements. • Terminal operator carries out loading and unloading of containers 24 hours per day (Fig- ure 5.5, shows night operation of loading and unloading activities at JICT terminal). How- ever, documents and payment are not processed 24 hours per day. Although payment can be done electronically through the Bank Mandiri ATM, hard-copy invoices still are needed. State of Logistics Indonesia 2013 37 Section 2 Figure 5.4 Average number of container cleared by customs for March 2012 (SPPB) Sources: Customs 2012 Note: Figure 5.4 explains the daily average number of containers cleared by Customs. The data indicate that there are small numbers of containers (8%) cleared beyond normal working time. Figure 5.5 24 hours operations of loading and unloading Containers at JICT terminal What has the government done so far? Currently, the Indonesia Port Corporation (IPC) is working on the development of an i-care system. The i-care and auto gate sys- tem, which connect bank – terminal opera- tor – freight forwarder are expected to give a better solution to alleviate the problem of the 24/7 program. I-care and auto gate system have the ability to process online payment using internet. Cash payments on container terminal premises have been abolished and replaced with ATM transac- tions. Source: JICT Currently, the system has been in trial/test phase on the KOJA terminal, with one MITA im- porter, a shipping line and a freight forwarder. The challenge is to implement the new system effectively and to include all other relevant users and stakeholders including terminals opera- tors, freight forwarders, importers, shipping liners and the Government agencies. 38 State of Logistics Indonesia 2013 Section 2 What is still missing? Many government agencies and private sector companies argued that operating 24/7 is too costly and not many importers demand the late night services or weekend services. The gov- ernment should consider using incentives to attract more demand from the users for the im- plementation of 24/7. For example, the incentives can be a terminal handling charge discount given to importers or freight forwarders that use 24/7 services. At the same time, the Government needs to provide consistent 24/7 operations for all agen- cies and coordination among government agencies and stakeholders, which still are missing. This can be done not only by providing extra staff for night shift but also sharing information by means of using better Information Technology for efficient staff scheduling to reduce costs of 24/7 operations. State of Logistics Indonesia 2013 39 6. Development of Dry Ports in Indonesia - Case Study of Cikarang Dry Port 6.1 Background Cikarang Dry Port is located in the heart of the largest manufacturing zone of Indonesia along the Bekasi-Cikampek corridor, which lies east of Greater Jakarta. Cikarang Dry Port is owned by Jababeka, a private company and land developer of industrial areas in Cikarang. Cikarang Dry Port is situated 50 km from Tanjung Priok Port and is accessible via highway and a railway system. Jababeka Industrial Estate hosts over 2,500 manufacturing companies, and, together with neighbouring industrial estates along the Bekasi-Cikampek toll road corridor, it contrib- utes up to 62% to Tanjung Prioks throughput (Figure 6.1). Figure 6.1 Cikarang Dry Port Concepts as Spoke of Tanjung Priok Source: Cikarang Dry Port (2011) 40 State of Logistics Indonesia 2013 Section 2 In the past few years Tanjung Priok Port has been growing rapidly (Figure 6.2). One of the main drivers for the development of Cikarang Dry Port was to reduce delay time and extra costs as- sociated with the congestion at Tanjung Priok Port. The idea behind development of Cikarang Dry Port (CDP) was to have integrated logistics facilities and services that handle import and export as well as domestic shipments to support Tanjung Priok Port. Thus, Cikarang Dry Port would serve as an extension of Tanjung Priok Port, or hub and spoke (Figure 6.1). Figure 6.2 Tanjung Priok International Throughput (TEU) Source: Indonesia Port Corporation, IPC (2012) Cikarang Dry Port started its operations in 2010 allowing goods to be shipped directly to Ci- karang Dry Port. Development of Cikarang Dry Port has not been smooth; it took more than 5 years until it became fully operational. Mainly because Cikarang Dry Port is a new concept, systems for regulations and licenses needed to be established by the government agencies from scratch. For smooth operation some of regulations that have been approved by the gov- ernment agencies are listed below: • Land Usage Permit from the Local Government (District of Bekasi and the Governor of West Java). • Inland Container Port Location (2004), Construction (2006) and subsequently Operation (2009) permits from the Ministry of Transportation. • Customs approval in implementation of Customs Advanced Tracking System in conjunc- tion with the Temporary Storage (Customs Bonded - TPS) status granted to the Inland Container Port (2010). • Ministry Of Finance decree KepMen Keu No. 232/ Desember 2009 in establishing Integrat- ed Customs Service Area, and subsequently granted the status to the inland port (2010)11. • UNCTAD registered Cikarang Dry Port as International Sea Port under ID-JBK location code (2010). 11 Integrated Customs Service Area (Kawasan Pelayanan Pabean Terpadu – KPPT) never existed before. KPPT is a special area inside an industrial area which integrates Customs Temporary Storage Area (TPS), Customs Bonded Storage Area (TPB), Export Goods Consolidation Area, and other supporting facilities. State of Logistics Indonesia 2013 41 Section 2 6.2 The Current State of Cikarang Dry Port In 2012, the Cikarang Dry Port development has been supported and endorsed by the govern- ment in such a way that the action plan for the implementation of SISLOGNAS mentions the need for optimization and increase of efficiency of Cikarang Dry Port. However, at the end of 2012, the throughput was still very low; only eight companies had applied for using dry ports with total throughput of about 3,500 TEU from January 2012 to August 2012. Table 6.1 illus- trates briefly the current situation of Cikarang Dry Port. Table 6.1 Current State of Cikarang Dry Port (as of August 2012) Criteria Current Conditions Throughput 3,500 TEU (January – August 2012) Shipping Line 11 shipping lines (Maersk Line group, APL, MOL, NYK, CMA- CGM, MSC, OCCL) Empty Container Depot 2 companies Truck Depot 1 company (Iron Bird) Transportation mode Truck and railways (operating domestic shipment to Sura- baya since July 2012) Government Agencies • Office and physical inspection facility for customs • Office for quarantine; physical inspection facility for quarantine (under development); quarantine information systems is online • Office for BPOM (under development) • Office for Port Authority Operations time 24/7 Lead time of container arrive at CDP Max 24 hours after container arrive in Tanjung Priok Number of users 8 companies Source: Compiled by the World Bank staff based on information from Cikarang Dry Port Recently, the World Bank and Bappenas have commissioned a study to evaluate the actual situation of Cikarang Dry Port and to find answers to the main question of why Cikarang Dry Port was not working optimally as it was planned. The study also looks at the comparison be- tween Tanjung Priok Port and Cikarang Dry Port (Table 6.2 Key comparison and Table 6.3 Costs comparison breakdown). 42 State of Logistics Indonesia 2013 Section 2 Table 6.2 Key Comparisons Tanjung Priok Port and Cikarang Dry Port Tanjung Priok Port Cikarang Dry Port Dwell time Congestion in Tanjung Priok Not congested. Service level agreement is causes dwell time of an average that the container after arrival in Tanjung of 6 days. Priok will be available in Cikarang Dry Port. Average dwell time is 3 days. Trucking Costs Depending on the location, cus- Depending on the location, customers, tomers, located in Cikarang area, located in Cikarang area would benefit situated away from the truck- from short distance to Cikarang Dry Port ing pool and container depot in and also short distance to empty container Marunda and Cilincing, would depot in Cikarang Dry Port. However, there pay a higher price. will be only one single trucking company serving Tanjung Priok - Cikarang Dry Port (no option to choose other trucking com- pany). Price control by Cikarang Dry Port. Traceability Not available. Using GPS for tracing container movement from Tanjung Priok to Cikarang Dry Port. Monitoring by Customs and CDP. Additional charges May incur costs for ‘overbren- No additional costs gen’. Customers reported that bribery still exists to some extent Handling fee One-time handing fee at terminal Double-handling fee at terminal in Tanjung Priok and at CDP Source: Compiled by the World Bank staff based on information from Cikarang Dry Port Table 6.3 Estimated cost comparison for using Cikarang Dry Port and Tanjung Priok Port12 (Rp) COST OF IMPORTING A CONTAINER FROM TANJUNG 20’Full Container 20’Full Container PRIOK TO FACTORY IN CIKARANG load load PRIOK CDP COST COST Bill of loading fee to shipping lines 89,000 89,000 Terminal handling charges 845,500 845,500 Lift-off Tanjung Priok CV 375,000 - Lift-on/Lift-off CDP - 375,000 Storage (in TPP and CDP)* - - Import customs (414,000 IDR/TEU) 414,00 414,000 12 Bappenas (Indonesia Planning Agency) and the World Bank. *Assume avg dwell time 6 days, storage time avg 1.16 days after SPPB (No storage fee) **Cost components include bonded trucking and physical inspection fee ***Cost componnent: Trucking, Gate out TPP, PNBP x2, LO/LO terminal tg. Priok, Admin terminal tg. Priok, Repo MT container ****Assume one time container shifting (conservative). Most likely container shifting at TPP will be higher because of avg YOR above 90%. *****Estimated avg overbrengen cost in TPP State of Logistics Indonesia 2013 43 Section 2 Inspection Process (red lane)** 1,962,000 1,015,000 Escort fee (by police) 200,000 - Tanjung Priok to Cikarang Dry Port*** - 1,410,000 Container shifting **** 319,600 370,000 Gate out TPP 200,000 - Trucking from discharging Port toFactory 1,500,000 600,000 Warehouse stripping costs 1,294,000 1,294,000 Over Brengen related cost ***** 3,500,000 - RED LANE - IDR Rp 7,199,100 Rp 6,412,500 GREEN LANE - IDR Rp 5,237,100 Rp 5,397,500 OBX RED LANE - IDR Rp 10,699,100 Rp 6,412,500 OBX GREEN LANE - IDR Rp 8,737,100 Rp 5,397,500 Source: BAPPENAS and World Bank Some of the main findings from this study are list below. • Cost saving for using Cikarang Dry Port is mostly significant for importers that use the cus- toms red channel. For the green channel, the costs are about the same as Tanjung Priok (Table 6.1 for cost comparison). • Cikarang Dry Port can prevent extra costs incurred from ‘overbrengen’13. About 10–15% of containers suffer from extra costs because of ‘overbrengen’. • Most of the importers located in Cikarang – Bekasi area have customs channel of ‘MITA prioritas’ (priority channel). This explains that they do not need to use Cikarang Dry Port since most of them already have their own customs bonded area. • Lack of rail infrastructure that connect the terminal operator in the port to Cikarang Dry Port. Rail services have started since July 2012, but there still is a missing rail link in Tan- jung Priok resulting in the need to transfer the container to the truck. • Direct competition with existing freight forwarders and road transport companies. Freight forwarder operating trucks to/from Tanjung Priok and the Cikarang and Bekasi area would not recommend using Cikarang Dry Port to their customers as they want to transport the containers themselves. • There is a relatively limited number of shipping liners operating in Cikarang Dry Port. The study found that the Cikarang Dry port will need to increase the number of shipping liners in order to create a competitive rate. 13 To transfer container from terminal operator yard to another place in the port area when the terminal operator container yard is already full. 44 State of Logistics Indonesia 2013 Section 2 6.3 Impact of Dwell Time in Tanjung Priok One of the options that can be reviewed further in reducing dwell time at Tanjung Priok is to perform optimization of Cikarang Dry Port. Based on analysis, the usage of CDP can reduce the dwell time in Tanjung Priok up to 3 days (52% reduction)14. There is a great potential to utilize CDP as part of the solution to reduce dwell time in Tanjung Priok. Assuming that the import throughput at Tanjung Priok amounts 70.000 TEU / month and the dwell time at Tanjung Priok is 6.2 days, the estimated reduction in dwell time due to the container being transported to the CDP is as depicted in Figure 6.3. Figure 6.3 Impact of Dwell Time in Tanjung Priok Source: Estimated by World Bank staff Figure 6.3 shows that the more Cikarang Dry Port will be utilized, the more reduction of dwell time in Tanjung Priok can be achieved. However, as mentioned previously, still limited utili- zation is being made of Cikarang Dry Port. This is partly because of the fact that there is no regulation and mechanism allowing ‘overbrengen’ to outside port of Tanjung Priok if it is not indicated on the bill of lading. As Cikarang Dry Port is relatively new, it will need some time to mature, resolve some of the issues previously mentioned, and convince the market that using Cikarang Dry Port can have the benefits of shorter dwell time and reducing costs. 14 Cikarang Dry Port 2012 State of Logistics Indonesia 2013 45 7. Capacity Development in Logistics in Indonesia 7.1 Background The global industry trend shows that the role of supply chain management and logistics man- agement is increasingly more important in maintaining the companies’ sustainability. The business of logistics and supply chain management has been growing rapidly after the finan- cial crisis of the 1990’s, which, at the same time, has been accompanied by an increasing demand for qualified professionals in supply chain management and logistics management. The growth, however, has not been coupled with sufficient growth in professional human resources. In general, human resources currently working in logistics and supply chain “ac- cidentally� enter the field to fill the company’s vacancy rather than build their competency from the beginning. The profession in logistics and supply chain has yet gained popularity in the world of education and fresh graduates. The shortage of professional logistics managers and experts in Indonesia is both in number and in quality; meanwhile, the need for logistics experts in Indonesia grows at least equal to the national economic growth rate. Some contributing factors are the national policy that allows multinational companies operating in Indonesia to bring logistics professionals from their home country or to recruit logistics professionals on the international labour market even for operational logistics jobs. This condition also encouraged the Ministry of National Education Policy (until 22nd March 2013) to acknowledge logistics as an integrated academic discipline as both science and professional expertise. Most of the Indonesian business com- munity is still not fully aware of the fact that in the globalization era, they need more and more integrated qualified logistics expertise. It is a fact that scarcity of logistics experts, specialists and professionals at the managerial and operational levels in both the private and public sectors is prevalent in Indonesia. Further, the existing human resources have poor competencies. Thus, in terms of human resources capac- ity in logistics, the challenges are: to increase logistics workforce and to improve the quality and competencies of existing resources. Training and education institutions play an important role in addressing these issues. 46 State of Logistics Indonesia 2013 Section 2 Another problem is the wide gap between the subjects offered at the existing educational and training programs in higher education institutions with the needs from the labour market. The existing education and training is provided on ad hoc basis by logistics companies and is still not standardized. As a result, capacity building of human resources in logistics remains unsatisfactory and their competency level low. In order to support the current growth of busi- nesses and economies, education and training institutions are required to produce graduates with basic knowledge directly needed by the corresponding industries. In Indonesia, logistics related curricula are commonly taught as part of Industrial Engineering or Economics study programs rather than a separate discipline. Moreover, education provid- ers have yet to recognize that supply chain and logistics management are programs of increas- ing popular interest. At present, Logistics Management and Supply Chain Management (SCM) as fields of study with Bachelor (S1) and/or Master (S2) degrees are offered by Trisakti College of Transport Management, University of Gajah Mada, University of Indonesia, Technological Institute of Bandung, Technological Institute of Sepuluh Nopember, University of Widyatama, and University of Andalas. Their curricula are adoptive to the dynamics of logistics and SCM development. In other countries, study programs of Supply Chain Management with a degree or Professional Certificate is offered widely. The absence of such formal certified program in Indonesia is be- cause the authorized profession certification body for Supply Chain & Logistics Management has not been established. Thus far, offered programs are mostly limited to periodic training, seminars and workshops by PPM, INFA Institute, Asperindo, ALI and KADIN, in collaboration with some universities in Indonesia. Thus, the capacity building of logistics human resources is very critical to the development of logistics related business in Indonesia. It is expected that demand for logistic professionals will increase significantly in the future. Although no survey has been conducted, all parties agree that, unless prepared early, Indonesian human resources capacity may become an obstacle to developing an efficient logistics system. 7.2 Government Policy, Strategy and Program SISLOGNAS has identified the development of human resources in logistics as one of the main drivers for improvement of the national logistics system in Indonesia, to reduce logistics costs, to make the country more competitive internationally, and to improve domestic connectivity. There is an increasing demand for qualified professionals as well as operators in transport, logistics and supply chain management. The adopted strategy is to develop international stan- dard logistics competencies and to achieve the strategic goal, e.g. to make competent logis- tics professionals at operational, managerial and strategic level available on the Indonesian market, fulfilling the national demand of the national logistics system. This goal is actualized through the following programs and road map (Table 7.1): State of Logistics Indonesia 2013 47 Section 2 Table 7.1 Roadmap and Action Plan Short term I Medium term II Long term 2011-2015 2016-2020 2021-2025 Organized and implemented Most logistics workers in All logistics workers in Indone- national logistics professional Indonesia hold international- sia hold international-standard education and training system standard national logistics national logistics certificates according to international certificates or hold certificates or hold certificates related to standards related to logistics from accred- logistics from accredited institu- ited institutions tions Source: Center for Logistics and Supply Chain Studies, Institut Teknologi Bandung (ITB) 1. Development of competencies for professionals in the field of logistics • Logistics science, expertise and profession planning through recognizing and establishing logistics as a science and profession needed, organized and developed in a formal way in Indonesia, and preparing classifications and levels of logistics competencies and profes- sion, and planning an educational and training system for national logistics profession. • Organizing professional education and training in logistics through providing nationally certified education and training for government staff and logistics practitioners and ser- vice providers. 2 Improved role of education and training institutions • Development of professional education and training institutions in logistics through es- tablishing academic and applied logistics study programs, development of an accredita- tion and certification agency for the logistics profession, establishment of logistics pro- fessional training institutions, improved support of the government for developing such education and training institutions, and development and improvement of cooperation networks between public and private education and training institutions and cooperation with foreign partners. • Development of international standard education and training facilities through develop- ment of international standard academic education facilities and development of interna- tional standard applied education facilities. 7.3 Logistics Education System and Profession The SISLOGNAS team has adopted a strategy to provide reliable professional logistics human resources at the operational, managerial and strategic levels to meet the national needs. For this purpose, the team found it necessary to classify and grade the logistics profession and es- tablish logistics education institutions at academic, vocational and professional levels. In gen- eral, the goal to be secured is the availability of competent logistics professionals. To achieve this, it is necessary to establish classification and structure of the logistics profession and to establish logistics education institutions in academic, vocational and professional modes. 48 State of Logistics Indonesia 2013 Section 2 The framework for the establishment, classification and structure of the logistics professions has to take into account both existing relevant laws and regulations as well as professional educational references and standards. The relevant laws and regulations in this respect are (1) Higher Education Regulations No. 12/2012, (2) Presidential Regulation No. 8/2012: Frame- work of Indonesian National Qualification (Kerangka Kualifikasi Nasional Indonesia/KKNI), (3) Presidential Regulation No. 26/2012: Blueprint of National Logistics System (SISLOGNAS), and Letter of Recognition of the Minister of National Education No. March 2013. Some profession- al educational references and standards are: (1) Logistics Body of Knowledge, (2) Competence Standards of ELA, (3) Benchmarks of educational institutes such as Politechnic Hongkong, STC Rotterdam NL, etc. Based on those references, the national education system in general is de- picted in Table 7.2, the academic logistics education is presented in Figure 7.1, and vocational education in Figure 7.2. Table 7.2 National Educational Program Type of Educational program Degree Institution Education Academic Bachelor program Bachelor (S.) education University (4), Institute (3), Master program Master (M.) College (1) Doctor program Doctor (Dr. Professional Professional program Name of Profession HE Institution Cooperate education with related and Specialist program Name of Specialist professional insttution Vocational Non Degree program Operator YHS (1) & SHS/SMK (2) education Diploma Program D1 Ahli Pratama Community College, Academy, Politechnic, D2 Ahli Muda University (4), Institute (3), College (1) D3 Ahli Madya Academy, Politechnic, Sarjana Sains Terapan D4 University (4), Institute (3), (S.S.T) College (1) Applied Master program Master (M.) University (4), Institute (3), Applied Doctor program Doctor (Dr.) College (1), Politechnic. Source: Center for Logistics and Supply Chain Studies, Institut Teknologi Bandung (ITB) State of Logistics Indonesia 2013 49 Section 2 Figure 7.1 Logistics Academic Education System Profession Graduate SLTA S1 S2 S3 work Graduate Graduate work work Education Program Degree Institution Program Sarjana (S1)/Bachelor • Prodi Logistics Engineering Bachelor (S. Log) • Prodi Logistics Management • University Program Master (S2) • Institute • Prodi Logistics Engineering Master (M. Log) • College • Prodi Logistics Management Program Doctor (S3) Doctor (Dr.) Source: Center for Logistics and Supply Chain Studies, Institut Teknologi Bandung (ITB) Figure 7.2 Logistics Vocational Education System Notes: • Strata D1 chooses one of the following fileds: Procurement, Warehousing, Inventory, Transportation or Production Logistics • Strata D2 is taken after passing strata D1 by undertaking core curriculum D1 Program • Strata D3 is the continuation of program of strata D2 and the same process is applied for D4, Applied S2, and Ap- plied S3 program. Source: Center for Logistics and Supply Chain Studies, Institut Teknologi Bandung (ITB) 50 State of Logistics Indonesia 2013 Section 2 Related to logistics professional education, logistics related associations (such as ALI, ALFI and ORGANDA) cooperate with the National Agency for Professional Certification (BNSP) and oth- er educational institutions to create a logistics profession accreditation agency and an asses- sor agency to educate and issue professional certificates. The SISLOGNAS team has used the principles of international standards for education and training in logistics management from the European Logistics Association (Figure 7.3) as a basis to formulate professional competen- cies as presented on Table 7.4 at the various levels of the National Qualification Framework. Figure 7.3 ELA Competencies in Logistics at Three Management Level   S t S r O p e a e r n a t t i i e o n a   o g l l i r   c Source: Center for Logistics and Supply Chain Studies, Institut Teknologi Bandung (ITB) The three levels of logistics management of ELA are operational/supervisory; senior; and stra- tegic. The ELA operational level corresponds with the levels 1-6 of the National Qualification Framework; in fact the ELA operational level comes close to the KKNI levels 4-6 (supervisory, D1-D3) as the ELA levels refer basically to levels of management. The ELA senior level corre- sponds with the levels 7-8 (D4/S1, S2). The ELA strategic level with KKNI level 9 (S3). State of Logistics Indonesia 2013 51 Section 2 Table 7.4 KKNI and ELA Classification of Competencies in Logistics ELA KKNI Operational Senior Strategic Profession Level of Operator Supervisor Competence Operator 1 *YHS 2 *SHS 3 *D1 Technician/ 4 *D2 Analyst 5 *D3 6 *D4/S1 Expert/ 7 *Sp Specialists 8 *S2 9 *S3 Community College: Only for D1 &D2 Source: CloCS Progress Report; Senator Nur Bahagia; January 2013. 7.4 Current Progress The SISLOGNAS Team is currently cooperating with the private sector to provide training on in- troductory supply chain management to local government officials as they are also the stake- holders of the national logistics policies. Training of trainers programs are also being planned to prepare for the seed of logistics training by the local government educational communities. In August 2012, Law No. 12/2012 on Higher Education was issued. This law puts heavy empha- size on the establishment of applied sciences programs in tertiary education level. Learning value of education is prioritized and the community college (with one to two years program) is among the specified higher learning institutions which establishment is to be encouraged particularly at local governments (regencies and municipalities) with specific potential and needs. The provisions of the Law provide for cooperation between local government, central government and the private sector. The SISLOGNAS team is currently working together with the private sector and the local government toward establishment of logistics community colleges. The Asosiasi Logistik Indonesia (ALI) has been granted a certification license for the compe- tencies of Transportation, Warehousing and Procurement in December 2012. ALI has become member of the European Logistics Association and intends to become the certifying authority for ELA certified training in logistics management. The Indonesian Logistics and Forwarders Association (ALFI) is in the certification process at the National Professional Certification Body (BNSP) for the competency of ‘Maritime Transport Cargo Handling’. 52 State of Logistics Indonesia 2013 Section 2 In March 21-23, 2012, ORGANDA has organized a special pilot Eco-Driving Training Programme for Safety & Efficiency, which was delivered by Panteia/NEA in Indonesia in Bogor. The main objective was to transfer knowledge and experiences with regards to the training of profes- sional bus and truck drivers to the Indonesian National Road Transport Operators Association. Three groups have been trained: one group of bus drivers; one group of truck drivers; one group of managers. The Eco-Driving Training Programme showed that it is possible to save at least 20% of fuel by applying new driving techniques and better trip preparation, which can be learned in a two-day training programme. Also the maintenance costs of the vehicle will de- crease substantially when applying eco-driving principles. Finally, road safety records will be improved by the fact that less accidents will occur. ORGANDA is now in the process to become the certifying authority at BNSP for the competencies of professional truck and bus drivers, terminal operators and total quality management. 7.5 Closing Remark Well-educated logistics professionals is a must to achieve an effective and efficient National Logistics System. Indonesia still lacks well-educated logistics professionals both in quantity and quality, as well as appropriate formal national education and training institutions, which do have the capacity and capability to offer these programs. Steps, however, already have been taken to overcome this situation. The framework for new education and training curricula in logistics should be based on inter- national standards considering national requirements. 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