Transitioning to Green Maritime Transportation in Philippines

E. V. Palconit; M. L. S. Abundo

doi:10.48084/etasr.2457

THE IMPACT OF TECHNOLOGICAL INNOVATIONS ON THE COMPETITIVENESS OF THE TELEMATIC COMPANIES

Mokslas - Lietuvos ateitis ◽

10.3846/mla.2020.12433 ◽

2020 ◽

Vol 12 (0) ◽

pp. 1-11

Author(s):

Elena Dadelytė ◽

Alma Mačiulytė-Šniukienė

Keyword(s):

Technological Innovation ◽

Transport Sector ◽

Technological Innovations ◽

Monitoring And Control ◽

The Public ◽

Correlation And Regression Analysis ◽

Economic Progress ◽

Definition Of ◽

And Control ◽

The Impact

Innovation is an important driver of economic progress, benefiting consumers, business and the economy as whole. However, innovation companies face high risks because innovation requires a lot of resources, and it is difficult to predict a payback period in advance. This is common for all types of innovation, but especially to technological innovation. One of the least researched technological innovations is telematics, innovative transport monitoring and control technology solutions. Those are widely applied in logistics, car-sharing platforms and the public transport sector. These innovations help to achieve the goals of the companies that buy and install them, but question what impact they have on the competitiveness of the companies that create these innovations remains a matter of debate. To fill this gap, the purpose of this article is to determine the impact of technological innovation on the competitiveness of telematics companies. In pursuit of this goal, the concepts of technological innovation and competitiveness are revealed. The definition of telematics innovation and its significance for the competitiveness of enterprises was also formed. The empirical part discusses the telematics market, provides the analysis of the main competitiveness indicators of 8 telematics companies and their changes, as well as the analysis of the research and development (R&D) costs and the impact of innovations on competitiveness. Applied research methods: a critical analysis of scientific literature, generalization, systematization of data, computation, and comparison of relative indicator, data dispersion indicator, and dynamics indicator, correlation, and regression analysis. The research reveals that creation and development innovation are related to competitiveness of telematics companies. However, excessive investment into innovation no longer generates positive return.

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Climate change and biodiversity; impacts, vulnerability and mitigation in Indian perspective : A review

Journal of Applied and Natural Science ◽

10.31018/jans.v9i1.1243 ◽

2017 ◽

Vol 9 (1) ◽

pp. 632-638

Author(s):

D. K. Soni ◽

Farid Ansari

Keyword(s):

Climate Change ◽

Sustainable Development ◽

Environmental Concern ◽

Anthropogenic Activities ◽

Current Trend ◽

Green Energy ◽

Transport Sector ◽

Natural Habitats ◽

Mitigation And Adaptation ◽

The Impact

As per the nature of law, changes are bound to be happening in the system if any component of the system gets altered by any means. Change of climate and subsequently loss of biodiversity threatens the existence of human being. The loss of biodiversity, which has been happening worldwide, poses a serious threat to the anthro-pological system. An investigation of the current trend and future scenario shows that this loss is likely to continue in the foreseeable times. India has a huge variety of biodiversity and in the last few decades, its biodiversity has come under threat from climate change which accelerated by the anthropogenic activities of various sources of pollution. The review shows that climate change is a serious environmental challenge that undermines the determination for sustainable development. Climate change has become the most crucial environmental concern of the decade. Much attention is rightly focused on reducing carbon emissions and greenhouse gases from industrial, energy and transport sector through reduction in fuel consumption and use of renewable/green energy. However, as countries are looking for mitigation and adaptation processes, protection of natural habitats is a key factor of climate change strategies. Strengthened support for protected areas and more sustainable resource management can contribute to strategies as well as for protection of the biological resources and ecosystem. Climate change is developing as one of the greatest threats to biodiversity, increasing pressures on genetic resources, species and populations. Biodiver-sity conservation and sustainable development are the possible ways to curtail the impact of climate change. Although, adequate efforts have been made worldwide to tackle the environmental challenges, the adverse effects of climate change are still accelerating and the rate of loss of biodiversity is continuing globally.

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Understanding the costs, benefits, mitigation potentials and ethical aspects of New Zealand’s transport emissions reduction policies

10.26686/wgtn.17148269 ◽

2021 ◽

Author(s):

◽

Md Hasan

Keyword(s):

New Zealand ◽

Electric Vehicles ◽

Low Income ◽

Road Transport ◽

Carbon Price ◽

Green Energy ◽

Transport Sector ◽

Emissions Reduction ◽

The Government ◽

Transport Emissions

<p>Greenhouse gas emissions from New Zealand’s road transport sector have been increasing rapidly since 1990. Between 1990 and 2017, New Zealand’s gross greenhouse gas emissions increased by 23.1% while emissions from the road transport sector increased by 82%; rising to 15.9 MtCO2e in 2017 from about 8.8 MtCO2e in 1990. To reduce transport emissions, the government has undertaken various initiatives including electric vehicle support, introduction of an emissions trading scheme (ETS), promotion of biofuel and other alternative fuels, and announcement of a feebate scheme. However, even though some of these policies require time to take effect, it is evident from the increase in emissions that there has so far been little progress in terms of transport emissions reduction. This raises questions over the acceptability and effectiveness of the policies taken by the government. Given the pressing need to reduce transport emissions globally and in New Zealand in particular, the present study initially investigates the major drivers of transport emissions from among a set of likely drivers, using a causality test. Because electric vehicles are widely seen as an obvious ‘solution’ within the sector, this study next examines the costs and mitigation potential of electric vehicles in the New Zealand context in order to understand the uncertainties, risks, barriers, costs, and policy gaps associated with their widespread adoption. Next, this study examines the scope for an increased carbon price signal to curb emissions growth. Finally, this study takes the view that technological and price instruments have to be seen within a wider range of possible transport policy measures, some of which may be complementary. The study therefore elicited the perspectives of a number of transport experts, and NGO and green energy activists. It ranked six mitigation policy pathways and 26 policy options on the basis of experts’, and NGO and green energy activists’ preferences. Findings of this study include that poor vehicle fuel economy is the major driver of transport emissions in New Zealand. Policies such as a high minimum vehicle fuel economy standard and/or feebate scheme could effectively help New Zealand reduce its transport emissions significantly. Electric vehicles (EVs) are also found to be potentially very effective in reducing emissions as around 80-85% of New Zealand’s electricity comes from renewable generation. Moreover, in terms of the ownership costs of using EVs, used EVs are now the most cost competitive among various vehicle types such as new EVs, used internal combustion engine vehicles (ICEVs) and new ICEVs. An increase in the carbon price to around NZD 235 per tonne of carbon dioxide (tCO2) is also likely to help the transport sector reduce its emissions by 11% from the 1990 level and achieve the Paris target. However, according to experts’, and NGO and green energy activists’ preferences, EV support and an increased carbon price are not the most preferred emissions reduction options. Some experts, and NGO and green energy activists viewed EV subsidization, EV free parking and EV access to high occupancy lanes as unethical because EVs are mostly used by high-income people whereas low-income people often use bus or low-cost used cars. Likewise, some experts, and NGO and green energy activists did not prefer an increased carbon price because the impact of such a policy would be uneven, and low-income people would be hurt severely compared to high-income people. Results demonstrate that active and public transport support and travel demand management are the most preferred options. Since New Zealand roads are not wide enough to support a high level of individual car use both in the short and the long run, most experts, and NGO and green energy activists preferred active and public transport under current and future circumstances. Policies related to bio-fuel support were least preferred because most experts, and NGO and green energy activists think an increased production and use of biofuels is likely to replace existing forestry and farm activity and decrease food production and forestry. It is hoped that the findings of this study will help to better illuminate the difficult policy options facing policy makers and work to assist them in identifying the most acceptable policies and projects for investment.</p>

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Quantifying the Impact of Development of the Transport Sector in Pakistan

The Pakistan Development Review ◽

10.30541/v46i4iipp.779-802 ◽

2007 ◽

Vol 46 (4II) ◽

pp. 779-802 ◽

Cited By ~ 1

Author(s):

Rizwana Siddiqui

Keyword(s):

Computable General Equilibrium ◽

Public Investment ◽

Road Transport ◽

Transport Infrastructure ◽

Transport Sector ◽

Transport Services ◽

Long Run ◽

The Government ◽

The Cost ◽

The Impact

An efficient transport system is not only a pre-requisite for economic development but is also important to achieve the objective of economic integration in the world economy. Insufficient transport infrastructure results in congestion, delay delivery time, fuel waste, pollution and accident1 which built inefficiencies in the economy and costs the economy 4 to 6 percent of GDP each year [Shah (2006)and World Bank (2007)], which can be saved by investing in transport services. Realising its importance, the government of Pakistan has initiated National Trade Corridor Improvement Programme (NTCIP) in 2005 to improve logistic and transport infrastructure so that it can fulfill the demand of economy more efficiently. This five years programme includes all sectors that improve performance of corridor-high way namely, road transport, railways, airports, and ships etc. The objective of the programme is to reduce the cost of doing business and improve quality of services. The study quantifies the efficiency of transport sector by evaluating the impact of public investment to improve transport services on the economy in general and on cost of land transportation in particular; i.e., cost of freight and passenger movement and cost of externalities such as congestion, air pollution and accident. The outcome of the study depends on how improved facility is achieved, i.e., who bears the cost and who benefits etc. This paper assumes tax financed public investment that not only change domestic price and demand, but also welfare and poverty. The issue is analysed in computable general equilibrium framework taking into account inter linkages of transport sector with rest of the economy. First, a social accounting matrix (SAM) is developed with a detailed transport module. Then, a dynamic CGE model is developed around this SAM and simulations are conducted for short run and long run analysis of public investment in trans port sector.

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Accessibility Mapping through Linking Land-Use Development Potentials and Planning for Cycling

Built Environment ◽

10.2148/benv.47.4.515 ◽

2021 ◽

Vol 47 (4) ◽

pp. 515-540

Author(s):

Tanu Priya Uteng ◽

Andre Uteng

Keyword(s):

Land Use ◽

Land Use Planning ◽

Macro Level ◽

City Centre ◽

Transport Sector ◽

Programme Implementation ◽

Policy Objective ◽

Road Design ◽

The Government ◽

The Impact

The transport sector aims to address climate change by reducing emissions, and a key to achieving this goal is to increase uptake of sustainable modes such as walking, cycling, and public transport. Therefore, it is important to determine ways to achieve this goal and to build a portfolio of feasible reduction strategies. This study is based in Norway where the government has a clear policy objective to reduce growth in urban car traffic and assimilate future sustainable transport modes. Cycling has therefore gained importance in both policy discussions and programme implementation through providing dedicated infrastructure to increase its modal share. Ways to increase cycling can be plotted at both macro- and microlevels. At the micro-level, road design and improved conditions for cyclists can lead to an increase in cycling. At the macro-level, land-use planning can be one of the tools to promote cycling. We analyse the issue at a macro-level based on an Integrated Methodology for Land Use prognosis within Transportation Models (INMAP) which estimates the mutual eff ects of land-use plans and increased accessibility by e-bike. We assess the extent to which future growth areas, as earmarked by the strategic master plans of the cities of Oslo and Trondheim, coincide with the areas that have a high job accessibility by bicycle and e-bike. Analyses reveal that on the introduction of e-bikes in Oslo, accessibility to jobs in the city centre increases from 20,000–24,000 to over 28,000 jobs. For Trondheim, in terms of spatial expansion of accessibility for jobs, there is an extension of the catchment area from 6 km2 to 18 km2. Based on the findings, this study strongly recommends integrating the impact of e-bikes with land-use planning processes and decisions. Through active land-use management, municipalities and regional development authorities can take informed decisions to steer urban mobility in a more sustainable direction.

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Decline in air transport sector performance as a result of COVID-19 pandemic outbreak

Bulletin of the National Engineering Academy of the Republic of Kazakhstan ◽

10.47533/2020.1606-146x.80 ◽

2012 ◽

Vol 80 (2) ◽

pp. 18-26

Author(s):

N. A. Dolzhenko ◽

◽

Keyword(s):

Air Transport ◽

Transport Sector ◽

Security Breaches ◽

Tourism Sector ◽

Economic Downturns ◽

Sector Performance ◽

The Government ◽

The Impact

Tackling the crisis is nothing new for airlines and the aviation and tourism sector in general. Just as the industry has overcome past epidemics, economic downturns, annoying security breaches and other debilitating events, it will also overcome the COVID-19 crisis. Actions taken by the government, industry leaders and individual airlines during this period will influence the depth of the crisis, how long the impact will last, how quickly the industry will recover, to what extent the industry will be transformed, and which companies will emerge relatively stronger than their peers.

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Dynamic interaction between higher education and economic progress: a comparative analysis of BRICS countries

Information Discovery and Delivery ◽

10.1108/idd-07-2018-0023 ◽

2018 ◽

Vol 46 (4) ◽

pp. 225-238 ◽

Cited By ~ 1

Author(s):

Victor Chang ◽

Yian Chen ◽

Chang Xiong

Keyword(s):

Higher Education ◽

Time Series ◽

Economic Development ◽

Comparative Analysis ◽

Dynamic Interaction ◽

Content Type ◽

Brics Countries ◽

Economic Progress ◽

The Government ◽

The Impact

PurposeThe purpose of this paper is to gain a deeper insight on how education boosts economic progress in key emerging economies. This project is aimed at exploring the interactive dynamics between the tertiary education sector and economic development in BRICS countries. The author also aims to examine how the structure of higher education contributes to economic expansion.Design/methodology/approachThe author uses the time series data of BRICS countries across approximately two decades to determine the statistical causality between the size of tertiary enrollment and economic development. The linear regression model is then used to figure out the different impact levels of academic and vocational training programs at the tertiary level to economic development.FindingsData from all BRICS countries exhibited a unidirectional statistical causality relationship, except the Brazilian data. The national economic expansion Granger Caused increased tertiary enrollment in Russia and India, while in China and South Africa, higher education enrollment Granger Caused economic progress. The impact from tertiary academic training is found to be positive for all BRICS nations, while tertiary vocation training is shown to have impaired the Russian and South African economy.Research limitations/implicationsThis project is based on a rather small sample size, and the stationary feature of the time series could be different should a larger pool of data spanning a longer period of time is used. In addition, the author also neglects other control variables in the regression model. Therefore, the impact level could be distorted due to possible omitted variable bias.Practical implicationsTertiary academic study is found to have a larger impact level to all countries’ economic advancement, except for China, during the time frame studied. There is a statistical correlation between the education and economic progress. This is particularly true for BRICS countries, especially China. But the exception is Brazil.Social implicationsThe government should provide education up to the certain level, as there is a direct correlation to the job creation and economic progress. Furthermore, the government should also work closely with industry to ensure growth of industry and creation of new jobs.Originality/valueThe comparative analysis and evaluation of the dynamic interaction of tertiary enrollment and economic output across all five BRICS nations is unique, and it deepens the understanding of the socioeconomic development in these countries from a holistic management perspective.

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Understanding the costs, benefits, mitigation potentials and ethical aspects of New Zealand’s transport emissions reduction policies

10.26686/wgtn.17148269.v1 ◽

2021 ◽

Author(s):

◽

Md Hasan

Keyword(s):

New Zealand ◽

Electric Vehicles ◽

Low Income ◽

Road Transport ◽

Carbon Price ◽

Green Energy ◽

Transport Sector ◽

Emissions Reduction ◽

The Government ◽

Transport Emissions

<p>Greenhouse gas emissions from New Zealand’s road transport sector have been increasing rapidly since 1990. Between 1990 and 2017, New Zealand’s gross greenhouse gas emissions increased by 23.1% while emissions from the road transport sector increased by 82%; rising to 15.9 MtCO2e in 2017 from about 8.8 MtCO2e in 1990. To reduce transport emissions, the government has undertaken various initiatives including electric vehicle support, introduction of an emissions trading scheme (ETS), promotion of biofuel and other alternative fuels, and announcement of a feebate scheme. However, even though some of these policies require time to take effect, it is evident from the increase in emissions that there has so far been little progress in terms of transport emissions reduction. This raises questions over the acceptability and effectiveness of the policies taken by the government. Given the pressing need to reduce transport emissions globally and in New Zealand in particular, the present study initially investigates the major drivers of transport emissions from among a set of likely drivers, using a causality test. Because electric vehicles are widely seen as an obvious ‘solution’ within the sector, this study next examines the costs and mitigation potential of electric vehicles in the New Zealand context in order to understand the uncertainties, risks, barriers, costs, and policy gaps associated with their widespread adoption. Next, this study examines the scope for an increased carbon price signal to curb emissions growth. Finally, this study takes the view that technological and price instruments have to be seen within a wider range of possible transport policy measures, some of which may be complementary. The study therefore elicited the perspectives of a number of transport experts, and NGO and green energy activists. It ranked six mitigation policy pathways and 26 policy options on the basis of experts’, and NGO and green energy activists’ preferences. Findings of this study include that poor vehicle fuel economy is the major driver of transport emissions in New Zealand. Policies such as a high minimum vehicle fuel economy standard and/or feebate scheme could effectively help New Zealand reduce its transport emissions significantly. Electric vehicles (EVs) are also found to be potentially very effective in reducing emissions as around 80-85% of New Zealand’s electricity comes from renewable generation. Moreover, in terms of the ownership costs of using EVs, used EVs are now the most cost competitive among various vehicle types such as new EVs, used internal combustion engine vehicles (ICEVs) and new ICEVs. An increase in the carbon price to around NZD 235 per tonne of carbon dioxide (tCO2) is also likely to help the transport sector reduce its emissions by 11% from the 1990 level and achieve the Paris target. However, according to experts’, and NGO and green energy activists’ preferences, EV support and an increased carbon price are not the most preferred emissions reduction options. Some experts, and NGO and green energy activists viewed EV subsidization, EV free parking and EV access to high occupancy lanes as unethical because EVs are mostly used by high-income people whereas low-income people often use bus or low-cost used cars. Likewise, some experts, and NGO and green energy activists did not prefer an increased carbon price because the impact of such a policy would be uneven, and low-income people would be hurt severely compared to high-income people. Results demonstrate that active and public transport support and travel demand management are the most preferred options. Since New Zealand roads are not wide enough to support a high level of individual car use both in the short and the long run, most experts, and NGO and green energy activists preferred active and public transport under current and future circumstances. Policies related to bio-fuel support were least preferred because most experts, and NGO and green energy activists think an increased production and use of biofuels is likely to replace existing forestry and farm activity and decrease food production and forestry. It is hoped that the findings of this study will help to better illuminate the difficult policy options facing policy makers and work to assist them in identifying the most acceptable policies and projects for investment.</p>

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Indonesia Zero Emissions Application (EMISI): Methodology for Calculating Individual Emissions from Goods Deliveries, and Marine and Aviation Transport

10.46830/writn.20.00150 ◽

2021 ◽

Author(s):

Nanda Noor ◽

Retno Wihanesta ◽

Muhamad Rizki ◽

Jeanly Syahputri ◽

Philipe Gan

Keyword(s):

Climate Change ◽

Particulate Matter ◽

Air Pollutants ◽

Ghg Emissions ◽

Technical Note ◽

Transport Sector ◽

Intergovernmental Panel ◽

Road Freight ◽

The Government ◽

The Impact

Human activities can contribute to the production of greenhouse gas (GHG) emissions and air pollutants, thus exacerbating the impact of the climate crisis. The Indonesia Zero Emissions Application (EMISI) was developed in 2020 to help the public and organizations easily calculate and track emissions associated with land transportation activity in Indonesia. The WRI Indonesia team had produced a technical note to extend EMISI platform’s calculator to calculate household emissions. Now, the team has extended the platform to calculate the emissions generated from goods deliveries, and marine, and aviation transportation. More than 50 percent (2018) of transport emissions came from aviation, marine, and road-freight transport (Ritchie 2020), more attention should be given to this sector, especially in an archipelagic country such as Indonesia, where both aviation and marine-based transportation plays a vital role. Additionally, though the government has set up initiatives to accelerate the electrification of the transport sector, aviation, marine, and road freight are difficult to decarbonize and electrify and therefore other efforts to reduce or mitigate emissions from these sectors are important. This technical note focuses on calculating methane (CH4) and CO2 as GHG emissions, followed by carbon monoxide (CO), nitrogen oxides (NOx), fine particulate matter (PM2.5, meaning particulate matter with diameter less than 2.5 micrometers), sulfur dioxide (SO2), and nonmethane volatile organic compounds (NMVOCs) as air pollutants, considering their substantial implications for climate change and air pollution. Consequently, further adjustments to methodologies of the Intergovernmental Panel on Climate Change (IPCC) are made by adopting Indonesia-specific emission factors, coefficients, and assumptions from best available government data (Ministry of Energy and Mineral Resource Indonesia 2017; Ministry of Environment and Forestry Indonesia 2017; 2010), with complementary international sources (ICAO 2016; Olmer et al. 2017; United Nations 2020).

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Article Towards Developing Domestic Maritime Legislation through Sub-regional Economic Integration: Cameroon’s Experience with the ‘CEMAC’ Merchant Shipping Code

Maritime Technology and Research ◽

10.33175/mtr.2021.243227 ◽

2021 ◽

Vol 3 (3) ◽

pp. Manuscript

Author(s):

Emmanuel Ndze Buh

Keyword(s):

Economic Integration ◽

Legal System ◽

Secondary Data ◽

Transport Sector ◽

Regional Economic Integration ◽

Shipping Industry ◽

Regional Economic ◽

Merchant Shipping ◽

The Government ◽

The Impact

Abstract: The regulation of the shipping industry is deeply rooted in treaties or agreements – whether bilateral, multilateral or universal. A multilateral treaty may result in the creation of a formal sub-regional economic integration organization, and there are many such organizations in Africa, of which CEMAC is one. These organizations seek economic integration and development through objectives such as the harmonization of transport sector regulations and tend to develop legal instruments that heavily impact the legislative framework of their member states as a result. The impact of the CEMAC Merchant Shipping Code on Cameroon’s maritime legislation can be seen from what Cameroon has achieved in terms of the modernization of its maritime legislation and the provision of solutions to the challenges inherent in its dual legal system. Furthermore, the CEMAC Shipping Code regime must also be perceived as a component of Cameroon’s overall effort geared towards meeting international maritime legislative implementation and enforcement standards. However, the challenges confronting the country at these various levels are huge and questions arise as to the adequacy of the CEMAC Shipping Code regime in addressing them. This paper thus sets out to make an appraisal of the CEMAC Shipping Code regime in its perceived role as vehicle for developing Cameroon’s maritime legislation and addressing the related challenges inherent in the country’s dual legal system. The methodology adopted is doctrinal in approach and involves a content analysis of primary and secondary data. The paper concludes with a proposed strategic framework for maritime legislative development and some practical suggestions directed at the government of Cameroon, but which should equally be useful to governments elsewhere.

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