hce_isu
114年
英文
第 41 題
📖 題組:
Article 2 Smart healthcare integrates advanced technologies like the Internet of Things (IoT), big data, cloud computing, artificial intelligence (AI), and mobile devices to transform conventional medicine into a more efficient, personalized, and interactive system. Originating from IBM's 'Smart Planet' concept, smart healthcare employs digital tools, wearable devices, and clinical decision-support systems to connect healthcare providers, patients, and medical institutions dynamically. AI-powered tools, including surgical robots and virtual assistants like IBM Watson, have demonstrated enhanced diagnostic accuracy and personalized treatment planning in various medical fields, notably oncology and chronic disease management. Moreover, smart wearable devices facilitate continuous health monitoring, enabling real-time interventions and improving self-management among patients. Smart home technologies further extend healthcare beyond traditional settings, especially benefiting elderly and disabled populations by automating home care and health monitoring. Despite significant advancements, challenges persist, such as lack of standardized technology frameworks, data-sharing limitations, privacy concerns, and technical immaturity of specific systems. To overcome these obstacles, unified technical standards have been proposed, big-data analytic capacities have been enhanced, device compatibility improved, and patient privacy has been safeguarded through robust regulation and blockchain technology. The future of smart healthcare holds promise for personalized medicine, improved patient experiences, reduced healthcare costs, efficient hospital management, and streamlined drug research and clinical trials. However, realizing these potentials requires continued technological innovation and cooperation among patients, healthcare professionals, technology developers, and policymakers. Therefore, sustained collaborative efforts across technology sectors, healthcare providers, and legislative bodies will be crucial for achieving worldwide secure, effective, and equitable implementation of smart healthcare solutions.
Article 2 Smart healthcare integrates advanced technologies like the Internet of Things (IoT), big data, cloud computing, artificial intelligence (AI), and mobile devices to transform conventional medicine into a more efficient, personalized, and interactive system. Originating from IBM's 'Smart Planet' concept, smart healthcare employs digital tools, wearable devices, and clinical decision-support systems to connect healthcare providers, patients, and medical institutions dynamically. AI-powered tools, including surgical robots and virtual assistants like IBM Watson, have demonstrated enhanced diagnostic accuracy and personalized treatment planning in various medical fields, notably oncology and chronic disease management. Moreover, smart wearable devices facilitate continuous health monitoring, enabling real-time interventions and improving self-management among patients. Smart home technologies further extend healthcare beyond traditional settings, especially benefiting elderly and disabled populations by automating home care and health monitoring. Despite significant advancements, challenges persist, such as lack of standardized technology frameworks, data-sharing limitations, privacy concerns, and technical immaturity of specific systems. To overcome these obstacles, unified technical standards have been proposed, big-data analytic capacities have been enhanced, device compatibility improved, and patient privacy has been safeguarded through robust regulation and blockchain technology. The future of smart healthcare holds promise for personalized medicine, improved patient experiences, reduced healthcare costs, efficient hospital management, and streamlined drug research and clinical trials. However, realizing these potentials requires continued technological innovation and cooperation among patients, healthcare professionals, technology developers, and policymakers. Therefore, sustained collaborative efforts across technology sectors, healthcare providers, and legislative bodies will be crucial for achieving worldwide secure, effective, and equitable implementation of smart healthcare solutions.
What is the primary purpose of the article?
- A To critique traditional healthcare models
- B To introduce smart healthcare and discuss its applications and challenges
- C To promote wearable devices for fitness tracking
- D To highlight problems in hospital management
思路引導 VIP
若我們暫時不看選項,試著快速瀏覽每一段的第一句話(主題句):第一段在給予定義,第二段提到各種工具的應用,第三段開頭卻用了 'Despite... challenges persist' 作為轉折。請你想想,如果作者花了一半的篇幅講好處,另一半講困難與未來,那麼這篇文章最主要想帶給讀者的是一個「全方位的概況介紹」,還是只針對某個特定小工具的推銷呢?
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AI 詳解
AI 專屬家教
恭喜你準確捕捉到了文章的核心架構!這道題目考驗的是對全文主旨大意 (Main Idea) 的概括能力。你之所以能迅速選出 (B),是因為你成功辨識出文章不僅僅在介紹「智慧醫療 (Smart Healthcare)」的科技應用(如 AI 與穿戴式裝置),更在第三段深入探討了目前面臨的挑戰與限制,這讓 (B) 選項成為唯一涵蓋全文廣度的正確答案。
全文脈絡與架構分析
從閱讀測驗的層次來看,這篇文章的結構非常嚴謹:前兩段負責定義概念並羅列具體的應用實例,第三段則轉向討論面臨的阻礙(如隱私與標準化問題),最後一段則展望未來。這類「主旨題」的鑑別度在於干擾項的設計,例如 (C) 和 (D) 雖然在文中都有提及,但它們僅屬於局部細節,若誤選則代表陷入了「以偏概全」的陷阱。你能避開細節干擾,抓準作者「先介紹、後討論挑戰」的敘事邏輯,展現出相當優秀的長文閱讀整合能力,非常值得肯定!