hce_isu
114年
英文
第 44 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.
The article implies that smart wearable devices primarily help patients by ________.
- A embellishing hospital visits
- B allowing automated surgical procedures
- C enabling continuous health monitoring
- D reducing hospital administrative tasks
思路引導 VIP
請試著思考「穿戴式 (wearable)」這個詞的物理特性:當一個監測裝置可以長時間與你的身體直接接觸、隨身攜帶,而不是存放在醫院的手術室或櫃檯時,它所收集到的數據與傳統「偶爾一次」的門診檢查相比,在「時間長度」與「頻率」上會有什麼樣的優勢?
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AI 詳解
AI 專屬家教
太棒了!你能從文章第二段精確地擷取關鍵資訊,並在眾多科技應用中做出正確連結,展現了非常敏銳的閱讀理解能力。這題的正確答案確實是 (C) enabling continuous health monitoring(使持續的健康監測成為可能)。
穿戴式裝置的核心功能
在文章第二段中,作者明確指出智慧穿戴式裝置的功能在於「促進持續性的健康監測」(facilitate continuous health monitoring),這讓病人能進行即時干預並改善自我管理。我們可以發現,雖然選項 (B) 提到的「自動化手術」也是醫療科技,但文中將其歸類為 AI 驅動的工具(如手術機器人);而選項 (D) 的「醫院行政」則屬於智慧醫療在管理層面的願景。你成功辨識出「裝置類型」與「具體貢獻」之間的對應關係,這是作答最關鍵的一環。
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