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Andreou, A. S., Christodoulou, P., & Christodoulou, K. (2018). A decentralized application for logistics: Using blockchain in real-world applications. Cyprus Review, 30(2), 181-193.
The article focuses on how blockchain technology can be applied to optimize transportation and logistics processes. In particular, the authors explain that this technological advancement can help users send and track goods via a single application. The given study admits that the blockchain technology provides its users with essential advantages.
Attaran, M. (2017). Additive manufacturing: The most promising technology to alter the supply chain and logistics. Journal of Service Science and Management, 10(03). Web.
Also known as additive manufacturing, three-dimensional printing provides the supply chain sphere with endless product design possibilities. This technological advancement leads to lowers costs and optimized carry and assembly processes. As a result, supply chain networks are becoming more efficient.
Azmat, M., Kummer, S., Moura, L. T., Di Gennaro, F., & Moser, R. (2019). Future outlook of highway operations with implementation of innovative technologies like AV, CV, IoT, and Big Data. Logistics, 3(2), 15. Web.
The scholars stipulate that modern highways face many challenges because a high number of people now own motored vehicles. Consequently, it is necessary to optimize highway exploitation, and a few technological advancements are helpful in this case. The possible improvements include the use of autonomous or connected vehicles, the Internet of Things, and Big Data.
Azmat, M., & Kummer, S. (2020). Potential applications of unmanned ground and aerial vehicles to mitigate challenges of transport and logistics-related critical success factors in the humanitarian supply chain. Asian Journal of Sustainability and Social Responsibility, 5(3). Web.
Autonomous cars and drones can make transportation processes more efficient and successful. The analysis of their applications by international humanitarian missions demonstrates that pilotless aerial vehicles are more requested, but no significant difference between aerial and ground devices has been found as per the missions participants.
Cleophas, C., Cottrill, C., Ehmke, J. F., & Tierney, K. (2019). Collaborative urban transportation: Recent advances in theory and practice. European Journal of Operational Research, 273(3), 801-816. Web.
The article focuses on what challenges and opportunities transportation and logistics face in urban areas. In particular, the researchers admit that technological advancements lead to start-up business models where customers deliver goods to other customers. However, the future will bring more challenges, including planning, performance measurement, and other difficulties.
Giusti, R., Manerba, D., Bruno, G., & Tadei, R. (2019). Synchromodal logistics: An overview of critical success factors, enabling technologies, and open research issues. Transportation Research Part E: Logistics and Transportation Review, 129, 92-110. Web.
Modern conditions imply that logistics should rely on real-time information and use technological advancements to work with it. Six technological features refer to this task, and they include optimization, simulation, intelligent systems, traceability, integration platforms, and data analytics. The six are considered critical success factors that make logistics and transportation more efficient.
Klump, M. (2018). Automation and artificial intelligence in business logistics systems: Human reactions and collaboration requirements. International Journal of Logistics Research and Applications, 21(3), 224-242. Web.
The author focuses on how the implementation of technological advancements affects human workers in the spheres of logistics and transportation. It is of significance to overcome multiple barriers to create an efficient and trusted collaboration between individuals and artificial intelligence systems.
Koh, L., Dolgui, A., & Sarkis, J. (2020). Blockchain in transport and logistics Paradigms and transitions. International Journal of Production Research, 58(7), 2054-2062. Web.
The scholarly study focuses on the application of blockchain technology in transportation and logistics areas. This technological advancement is expected to result in economic equality, resource scarcity prevention, and others. That is why the authors demonstrate that it is necessary to keep implementing innovations to achieve more significant benefits.
Lu, M., Xie, R., Chen, P., Zou, Y., & Tang, J. (2019). Green transportation and logistics performance: An improved composite index. Sustainability, 11(10), 2976. Web.
There is a connection between logistic performance efficiency and environmental protection. The researchers comment on a current trend stating that countries that show decent logistics efficiency tend to draw sufficient attention to environmental protection. Thus, technological advancements can become helpful tools to ensure that developmental processes do not harm the environment.
Rai, H. B., Verlinde, S., Merckx, J., & Macharis, C. (2017). Crowd logistics: An opportunity for more sustainable urban freight transport? European Transport Research Review, 9(39). Web.
The current transportation and logistics spheres suffer from traffic congestions. Thus, crowd logistics is proposed to address the problem because this approach represents a technological advancement that relies on using customers vehicles to perform delivery operations. This method will make transportation processes less expensive and more efficient.
Raj, A., & Sah, B. (2019). Analyzing critical success factors for implementation of drones in the logistics sector using grey-DEMATEL based approach. Computers & Industrial Engineering, 138, 101118. Web.
Drones provide the logistics and transportation spheres with essential advantages because these devices reduce carbon footprint and do not contribute to traffic congestions. However, they remain underutilized because not many businesses rely on such devices. Thus, the analysis reveals that government regulations and technological advancements can promote drones adoption.
Ranieri, L., Digiesi, S., Silvestri, B., & Roccotelli, M. (2018). A review of last mile innovation in an externalities cost reduction vision. Sustainability, 10(3), 782. Web.
The authors admit that globalization has resulted in a few challenges for transportation and logistics. Thus, it is reasonable to improve last-mile logistics since this phenomenon contributes to congestion and pollution of cities. It is rational to impact the situation with the help of innovative vehicles, smart traffic light management systems, and others.
Shin, S., Roh, H.-S., & Hur, S.-H. (2018). Technical trends related to intermodal automated freight transport systems (AFTS). The Asian Journal of Shipping and Logistics, 34(2), 161-169. Web.
Modern transportation and logistics spheres focus on greenhouse gas, optimizing infrastructure costs, and minimizing traffic congestion rates. The scholars admit that automated freight transport systems can help achieve the stipulated goals.
Speranza, M. G. (2018). Trends in transportation and logistics. European Journal of Operational Research, 264(3), 830-836. Web.
The article overviews the history of transportation and logistics to explain how they reach the modern development states. The author clarifies that flexible network integration, autonomous and hybrid vehicles, multi-modal networks, and others are technological advancements in the two spheres.
Strandhagen, J. O., Vallandingham, L. R., Fragapane, G., Strandhagen, J. W., Stangeland, A. B. H., & Sharma, N. (2017). Logistics 4.0 and emerging sustainable business models. Advances in Manufacturing, 5, 359-369. Web.
Logistics 4.0 marks current improvements that occur in the sphere and that result in new business models. Recent advancements include automated solutions, the work with Big Data, and others. Consequently, the logistics sphere benefits from digitalization, autonomy, personalization, and other technologically driven improvements.
Treiblmaier, H. (2019). Combining blockchain technology and the Physical Internet to achieve triple bottom line sustainability: A comprehensive research agenda for modern logistics and supply chain management. Logistics, 3(1). Web.
Blockchain technology and the Physical Internet are typical advancements in the spheres of transportation and logistics. The scholar defines and compares these technological solutions to conclude whether the two can be used as a practical framework for logistics and supply chain management. The article demonstrates that these technological advancements are adequate to achieve sustainability.
In conclusion, the annotated bibliography has demonstrated that many timely and credible studies focus on technological advancements in transportation and logistics spheres. However, it is possible to admit a few gaps in the literature review. On the one hand, there is no comparison of different technological advancements to identify what options are more effective. On the other hand, the literature does not comment on what industries can benefit more from technological improvements. Since these gaps represent different points of interest, it is reasonable to involve in parallel research processes to find reliable information to investigate the two issues.
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