BrigadierTurtle13414
So far in this course, we have explored technology through the…
So far in this course, we have explored technology through the lenses of history, the humanities, and the natural and applied sciences. In this module, the social science lens is the last piece of the puzzle. Revisit the article you selected and discussed in the Natural & Applied Sciences discussion and reexamine it now through social science.
Create one initial post and follow up with at least two response posts.
For your initial post, address the following:
Describe or summarize your previous the topic and technology in your previous discussion.
How has your understanding about the topic and technology been affected by the social science lens?
How does the social science lens provide different insights that improve your overall understanding about technology?
THIS IS MY PREVIOUS DISCUSSION
The news story I have chosen is titled “Scientists Uncover Potential Cure for Alzheimer’s Disease Using AI”.
In this groundbreaking study, a team of researchers used artificial intelligence technology to make a major breakthrough in the search for a possible cure for Alzheimer’s disease. The researchers used a deep learning algorithm to analyze a huge amount of genomic data, which allowed them to identify a specific gene variant that appears to be a key factor in the development of Alzheimer’s disease. This news reports that researchers have found a possible cure for Alzheimer’s disease using artificial intelligence (AI). Artificial intelligence technology was used to analyze data from hundreds of thousands of patients and identify patterns that could lead to potential treatments. This technology allowed researchers to quickly identify potential treatments that could be tested in clinical trials.
The technology that played a decisive role in this discovery is artificial intelligence, specifically deep learning algorithms. These algorithms can process and analyze huge amounts of data at an incredible speed that surpasses human capabilities. Using this technique, the researchers were able to identify the gene variant associated with Alzheimer’s disease, which would have been an incredibly time-consuming and labor-intensive task if done manually. The artificial intelligence technology used in this study allowed the researchers to sift through large amounts of genomic data and identify patterns and correlations that would otherwise be missed by traditional research methods. This approach enabled the identification of a specific gene variant, opened new avenues for understanding the molecular mechanisms underlying Alzheimer’s disease, and may have led to the development of targeted therapeutic interventions. The AI ??technology used in this study was able to quickly and accurately analyze large data sets, allowing researchers to identify potential treatments that could be tested in clinical trials. This method allowed the researchers to identify patterns in the data that could not be seen using traditional methods. Using artificial intelligence, researchers were able to identify potential treatments that could be tested in clinical trials much faster than if they used traditional methods. This research is an example of how artificial intelligence can be used to make medical discoveries. Artificial intelligence technology can help researchers quickly and accurately analyze large amounts of data, allowing them to identify potential treatments that could be tested in clinical trials much faster than if they used traditional methods.
This event illustrates the complex and mutually beneficial relationship between science and technology and shows how technological advances can transform scientific research and improve our understanding of complex phenomena. First, the integration of artificial intelligence technology in this research has accelerated the pace of scientific discovery. By automating the analysis of large data sets, researchers can discover patterns and correlations that would otherwise take years or even decades to identify. This synergy between science and technology enables researchers to achieve significant breakthroughs in less time, advancing the frontiers of knowledge.
Second, this event highlights the transformative power of technology in research. The use of AI algorithms in genomic research could revolutionize the field by revealing hidden patterns and genetic markers associated with disease, ultimately leading to advances in personalized medicine and more effective treatments. By equipping scientists with powerful tools, technology allows them to delve into the complexities of nature and make discoveries that were previously unattainable.
Finally, this finding highlights the importance of interdisciplinary collaboration between scientists and engineers. Successful integration of artificial intelligence into genomic research required both scientific and technological knowledge. By working together, scientists and engineers can use their strengths and expertise to solve complex challenges, paving the way for breakthrough discoveries.
Overall, the news stories I have selected highlight the important role of technology, especially artificial intelligence, in scientific discovery. Using deep learning algorithms to analyze genomic data, researchers were able to identify a gene variant associated with Alzheimer’s disease. This event reinforces the symbiotic relationship between science and technology and shows how technological advances can catalyze scientific breakthroughs and advance understanding of complex phenomena. As the collaboration between science and technology continues, the possibilities of new discoveries and advances in various fields are more and more promising.
Reference:
Kumar, A. (2020). Scientists Uncover Potential Cure for Alzheimer’s Disease Using AI. Retrieved from https://www.forbes.com/sites/alicegwalton/2020/08/11/scientists-uncover-potential-cure-for-alzheimers-disease-using-ai/#1f1e2f7e5e6f
