فهرس المقالات Medical system

• حرية الوصول المقاله
  • صفحة الملخص
  • نص كامل
  
  1 - Revolutionizing Healthcare: The Role of the Internet of Things in the Field of Medical Engineering
  sina emadi
  The rapid evolution of healthcare technology has witnessed the emergence of the Internet of Things (IoT) as a transformative force in the field of medical engineering. This article delves into the intricate world of IoT applications within medical engineering, exploring أکثر

  The rapid evolution of healthcare technology has witnessed the emergence of the Internet of Things (IoT) as a transformative force in the field of medical engineering. This article delves into the intricate world of IoT applications within medical engineering, exploring its vast potential to reshape patient care, diagnosis, treatment, and healthcare management. The IoT ecosystem in medical engineering forms a complex network of interconnected devices, enabling seamless communication and data exchange. From remote patient monitoring to predictive analytics and efficient resource allocation, the applications of IoT are wide-ranging and impactful. Despite its promises, challenges such as data security, interoperability, and regulatory compliance must be addressed. The article also envisions the future of IoT in medical engineering, highlighting the integration of artificial intelligence, enhanced healthcare accessibility, real-time interventions, and personalized healthcare. As the boundaries of technology continue to expand, the convergence of IoT and medical engineering promises to revolutionize healthcare delivery and elevate patient outcomes to unprecedented levels تفاصيل المقالة
• حرية الوصول المقاله
  • صفحة الملخص
  • نص كامل
  
  2 - Bandpass Biomedical Color Filter Based on 1-D Photonic Crystal Structure
  Hamed Alipour-Banaei Navvab Khorrammaslack
  10.30495/ijbbo.2021.689701
  We propose a flexible design for tunable bandpass biomedical color filter based on one-dimensional photonic crystals with introducing defect layers into one dimensional periodic structure which permits localized modes to exist with frequency inside photonic band gap (PB أکثر

  We propose a flexible design for tunable bandpass biomedical color filter based on one-dimensional photonic crystals with introducing defect layers into one dimensional periodic structure which permits localized modes to exist with frequency inside photonic band gap (PBG). In the proposed structure we can tune localized modes for manifesting different colors by selecting a specific wavelength in the visible light spectrum and also we tuned localized modes in PBG for RGB wavelengths applicable in biomedical systems. With changing the defect layer refractive index, the tuning of the frequency has been done and therefore this structure is suitable for optical biomedical bandpass filter. تفاصيل المقالة