![]() ![]() These findings here suggest critical technological directions that support environmental sustainability and can guide decisions of policymakers towards R&D investments in technologies driving the transition from fossil-based systems of energy to renewable energy oriented systems in order to reduce fossil-fuel pollution and foster the outlooks of sustainable development. Results reveal that technologies with promising perspectives of growth inducing ecological transition are: offshore wind turbines and carbon capture storage and utilization (especially, electrochemical conversion and bioconversion of CO 2), sustainable production of ammonia with innovations that reduce energy consumption, and finally cellular agriculture (cell-culturing technologies that produce substitutes for animal-based foods and bio-based materials with lower negative environmental impacts than conventional agriculture). The goal of this study is to identify and analyze new trajectories of technologies that can support energy and economic transition of countries for a sustainable development that reduces environmental pollution and some factors determining climate change. One of the fundamental problems in modern economies is fossil-fuel pollution having detrimental effects on climate, environment and human population. The results obtained from calculating the score using the SWOT analysis are to make regulations on procedures and standard operating procedures (SOP) for the use of the Tuberculosis Information System (SITB) to optimize health information management at the Parongpong Health Center, West Bandung Regency, Indonesia. ![]() Furthermore, counseling was carried out to all people in the Parongpong sub-district. This activity is carried out in several stages, namely 1) problem analysis with fishbone, 2) USG (urgency, seriousness, growth), and 3) SWOT analysis. This is done by analyzing a fishbone diagram and determining priority solutions to problems that have resulted in no real follow-up plans (RTL) so that targets have not been met and there has been no evaluation action at the Parongpong Health Center. This research aims to apply innovative health education to the problem of low Tuberculosis patient visits. This can also support Health Promotion activities through electronic media and online reporting to the Minister of Health of the Republic of Indonesia. An electronic health center information system must have an application, an internet, and a local network (LAN). Overall, then, fishbone diagram seems to be an appropriate and general technique of graphical representation to explore and categorize, clearly and simply, the potential root causes of the evolution of technological innovations for an appropriate management of technology.īased on the rules from the government contained in the Regulation of the Minister of Health of the Republic of Indonesia Number 31 of 2019, the Public Health Center information system can be implemented electronically so that the data obtained can be stored safely. Fishbone diagram is applied here as a novel graphical representation to identify, explore and analyse whenever possible, the potential root causes of the source and evolution of General Purpose Technologies (GPTs). The fishbone diagram can be a comprehensive theoretical framework to represent and analyze the sources of innovation. In particular, a fishbone diagram (the shape is similar to a fish skeleton) is a common tool used for a cause and effect analysis to identify a complex interplay of causes for a specific problem or event. Fishbone diagram (also called Ishikawa diagrams or cause-and-effect diagrams) is a graphical technique to show the several causes of a specific event or phenomenon. This study suggests the fishbone diagram for technological analysis.
0 Comments
Leave a Reply. |