Developed economies |
Burlaka (2011)BURLAKA VG. 2011. Structural components of technological competitiveness of ukraine’s industry under conditions of world financial crisis. Actual Probl Econ (121): 68-74., Cho & Park (2015)CHO I & PARK M. 2015. Technological-level evaluation using patent statistics: model and application in mobile communications. Clust Comput 18(1): 259-268., Jun & Park (2016)JUN S & PARK S. 2016. Examining technological competition between BMW and Hyundai in the Korean car market. Technol Anal Strateg Manage 28(2): 156-175., Lasi et al. (2014)LASI H, FETTKE P, KEMPER H, FELD T & HOFFMANN M. 2014. Industry 4.0. Bus Inf Syst Eng 6(4): 239-242., Lee et al. (2015)LEE J, BAGHERI B & KAO HA. 2015. A cyber-physical systems architecture for industry 4.0-based manufacturing systems. Manuf Lett 3: 18-23., Nahavandi (2019)NAHAVANDI S. 2019. Industry 5.0-a human-centric solution. Sus 11(16): 4371., Özdemir & Hekim (2018)ÖZDEMIR V & HEKIM N. 2018. Birth of Industry 5.0: Making Sense of Big Data with Artificial Intelligence, ‘“The Internet of Things”’ and Next-Generation Technology Policy. OMICS A J Integrative Biology 22(1): 1-12., Sachsenmeier (2016)SACHSENMEIER P. 2016. Industry 5.0-The relevance and implications of bionics and synthetic biology. Eng 2(2): 225-229., Santos et al. (2017)SANTOS C, ARAÚJO M & CORREIA N. 2017. A methodology for the identification of strategic technological competences: An application in the sheet metal equipment industry. Futures 90: 31-45., Shafiq et al. (2015)SHAFIQ SI, SANIN C, TORO C & SZCZERBICKI E. 2015. Virtual engineering object (VEO): Toward experience-based design and manufacturing for industry 4.0. Cybernetics Syst 46(1-2): 35-50., Svobodova & Hedvicakova (2017)SVOBODOVA L & HEDVICAKOVA M. 2017. Technological readiness of the Czech Republic and the use of technology. In: Europ Med Midd East Conf on Inf Syst 299: 670-678., Zakoldaev et al. (2018)ZAKOLDAEV DA, SHUKALOV AV, ZHARINOV IO & ZHARINOV OO. 2018. Algorithm of choosing type of mechanical assembly production of instrument making enterprises of Industry 4.0. In J Physics: Conf Series 1015: 5.. |
Austria, Australia, Canada, China, Czech Republic, Denmark, European Union, France, Germany, Greece, Hungary, Italy, Japan, Netherlands, Poland, Portugal, Russia, Slovakia, Spain, South Korea, Sweden, Switzerland, Taiwan, United Kingdom, United States and others. |
Supply chain management, artificial intelligence, big data algorithms for load balancing, smart manufacturing algorithms, cyber-physical systems architecture, extreme automation, big data analytics, secure big data, bio circuits, bioengineering, synthetic biology, collaborative robots, technological skills, extreme wireless connectivity, cloud computing, advanced digitalization, STEM (science, technology, engineering and mathematics) education, tertiary education, man-machine balance, digital twins, engineering skills, information and communication technologies, symmetric innovation, technological innovation, high-speed internet, internet of things, advanced manufacturing, patents, object of virtual engineering, mass customization, R+D+i, virtual reality, networks of technological competence, robotics, sensors, simulation. |
Emerging Economies |
Acosta & De (2015)ACOSTA B & DE PK. 2015. National Innovation System Ecuador: New Perspective. Rev Espacios 36(21): 1-16., Castillo et al. (2016)CASTILLO JGD, HERRERA PJC, CARRILLO JAO & MCCALMAN DG. 2016. Raising the technological competence of high school science and mathematics teachers of Mexico through delivery of an online program. Int J Technol Policy Manage 16(2): 163-180., Dalenogare et al. (2018)DALENOGARE LS, BENITEZ GB, AYALA NF & FRANK AG. 2018. The expected contribution of Industry 4.0 technologies for industrial performance. Int J Prod Econ 204: 383-394., Gupta (2010)GUPTA VK. 2010. Insight into firms’ strategy for leveraging technological competences in asia. J Intellect Prop Rights 15(2): 130-137., Luthra & Mangla (2018)LUTHRA S & MANGLA SK. 2018. Evaluating challenges to Industry 4.0 initiatives for supply chain sustainability in emerging economies. Process Saf Environ Protect 117: 168-179., Mayindi & Kachienga (2008)MAYINDI DH & KACHIENGA MO. 2008. Analysis of national technological competitiveness: South africa’s civil aircraft industry. In PICMET Portland Int Center for Manage of Eng Tech 2008: 99-107., Mittal et al. (2015)MITTAL SK, MOMAYA K & SUSHIL. 2015. A framework conceptualization for national technological competitiveness. Sushil, Bhal K and Singh S (Eds) Managing Flexibility. Flexible Systems Management, New Delhi: Springer, New Delhi, India, p. 245-270., Sinisterra et al. (2017)SINISTERRA KVB, MEJÍA SM & MOLANO JIR. 2017. Industry 4.0 and Its Development in Colombian Industry. In: Workshop Eng Appl 742: 312-323., Zholdasbekova et al. (2015)ZHOLDASBEKOVA S, KARATAEV G, YSKAK A, ZHOLDASBEKOV A & NURZHANBAEVA J. 2015. Methods of formation of students technological competence in the speciality “Garment Industry and Fashion Design”. Int J Pedagog Learn 10(3): 221-233.. |
Argentina, Brazil, Colombia, Ecuador, India, Kazakhstan, Malaysia, Mexico, South Africa, Turkey and others. |
Technological exploitation, automation, big data, supply chain, cyber-physical systems, cloud computing, control, skills and competences development, digitalization, electronics, technological strategies, organizational structure, additive manufacturing, skills, technological indicators, technological innovation, internet of things , R+D investments, lean, mass manufacturing, business model, technology policy, augmented reality, results, robotics, sensors, innovation systems, integrated manufacturing systems, sustainability, information and communication technologies. |