lab-descriptor.json

{
  "broadArea": {
    "name": "Biotechnology and Biomedical Engineering",
    "link": "https://www.vlab.co.in/broad-area-biotechnology-and-biomedical-engineering",
    "code": "BIO"
  },
  "lab": "Introduction to Biomedical Engineering Instrumentation Virtual Lab",
  "lab_display_name": "Introduction to Biomedical Engineering Instrumentation Virtual Lab",
  "phase": "3-ext",
  "collegeName": "AMRT",
  "baseUrl": "ibe-amrt.vlabs.ac.in",
  "introduction": "The Biomedical Engineering Instrumentation Virtual Lab is designed to bridge the gap between engineering principles and human physiology. It provides a risk-free, accessible environment where learners can explore the mechanics, signal processing, and diagnostic capabilities of essential medical devices without needing physical hardware. By simulating a wide spectrum of biological phenomena—from macroscopic cardiovascular and respiratory systems to microscopic cellular transport and histology—the lab equips students with a practical understanding of how medical instruments interface with the human body to monitor, diagnose, and model health.",
  "experiments":[
  {
    "name": "Electromyography (EMG) Signal Recording",
    "short-name": "emg-recording",
    "repo": "https://github.com/virtual-labs/exp-emg-recording-amrt",
    "tag": "v1.0.0",
    "deploy": true
  },
  {
    "name": "Heart Rate Variability (HRV) Analysis",
    "short-name": "hrv-analysis",
    "repo": "https://github.com/virtual-labs/exp-hrv-analysis-amrt",
    "tag": "v1.0.0",
    "deploy": true
  },
  {
    "name": "Human Body Temperature Regulation",
    "short-name": "body-temperature",
    "repo": "https://github.com/virtual-labs/exp-body-temperature-amrt",
    "tag": "v1.0.0",
    "deploy": true
  },
  {
    "name": "Human Respiratory System Model",
    "short-name": "respiratory-model",
    "repo": "https://github.com/virtual-labs/exp-respiratory-model-amrt",
    "tag": "v1.0.0",
    "deploy": true
  },
  {
    "name": "Measurement of Blood Pressure (Sphygmomanometer)",
    "short-name": "blood-pressure",
    "repo": "https://github.com/virtual-labs/exp-blood-pressure-amrt",
    "tag": "v1.0.0",
    "deploy": true
  },
  {
    "name": "ECG (Electrocardiography) Simulation",
    "short-name": "ecg-simulation",
    "repo": "https://github.com/virtual-labs/exp-ecg-simulation-amrt",
    "tag": "v1.0.0",
    "deploy": true
  },
  {
    "name": "Pulse Oximeter Functionality",
    "short-name": "pulse-oximeter",
    "repo": "https://github.com/virtual-labs/exp-pulse-oximeter-amrt",
    "tag": "v1.0.0",
    "deploy": true
  },
  {
    "name": "Basic Model of Blood Flow in Arteries",
    "short-name": "blood-flow-model",
    "repo": "https://github.com/virtual-labs/exp-blood-flow-model-amrt",
    "tag": "v1.0.0",
    "deploy": true
  },
  {
    "name": "Osmosis and Diffusion in Cells",
    "short-name": "osmosis-diffusion",
    "repo": "https://github.com/virtual-labs/exp-osmosis-diffusion-amrt",
    "tag": "v1.0.0",
    "deploy": true
  },
  {
    "name": "Virtual Bioreactor Simulation",
    "short-name": "virtual-bioreactor",
    "repo": "https://github.com/virtual-labs/exp-virtual-bioreactor-amrt",
    "tag": "v1.0.0",
    "deploy": true
  },
  {
    "name": "Virtual Microscopy for Histology",
    "short-name": "virtual-microscopy",
    "repo": "https://github.com/virtual-labs/exp-virtual-microscopy-amrt",
    "tag": "v1.0.0",
    "deploy": true
  }
],
  "targetAudience": {
    "UG": [
      "Biomedical Engineering",
      "Medical Electronics",
      "Electronics and Instrumentation Engineering",
      "Biotechnology",
      "Electronics and Communication Engineering (with interest in healthcare technologies)"
    ],
    "PG": [
      "Biomedical Engineering",
      "Medical Electronics and Instrumentation",
      "Bioprocess Engineering",
      "Medical Physics"
    ]
  },
  "objective": "The primary objective of the Biomedical Engineering Instrumentation Virtual Lab is to enable students to:    <ul><li><b>Analyze Bioelectrical Signals</b>: Understand the physiological origins and acquisition methods of vital bioelectric signals, including simulating Electrocardiograms (ECG), recording Electromyography (EMG) signals, and computing Heart Rate Variability (HRV).</li><li><b>Understand Non-Invasive Diagnostic Instrumentation</b>: Comprehend the engineering principles behind standard clinical monitoring tools, such as measuring blood pressure (Sphygmomanometer), assessing blood oxygen saturation (Pulse Oximeter), and tracking body temperature regulation.</li><li><b>Model Biomechanical and Fluid Dynamics</b>: Investigate the physical mechanics of human anatomy by modeling arterial blood flow hemodynamics and simulating respiratory system volumes and capacities.</li><li><b>Investigate Cellular and Tissue-Level Processes</b>: Examine micro-level biological behaviors by exploring osmosis and diffusion mechanisms, navigating tissue morphology via virtual microscopy, and understanding controlled bioprocessing in a virtual bioreactor.</li><li><b>Bridge Engineering with Clinical Application</b>: Develop a systems-level perspective on how physiological data is captured, measured, and utilized to inform medical diagnosis and healthcare technology design.</li></ul>",
  "courseAlignment": {
    "description": "The Introduction to Biomedical Engineering Instrumentation Virtual Lab is designed to complement and enhance the learning outcomes of various undergraduate and postgraduate courses in Biomedical Engineering, Medical Electronics, and related fields. The experiments and learning activities are aligned with core topics covered in the following courses:",
    "universities": [
      "Anna University – BM3491: Biomedical Instrumentation",
"Anna University – BM25C01: Anatomy and Physiology",
"APJ Abdul Kalam Technological University (KTU) - EET312 / EC365: Biomedical Instrumentation",
"Visvesvaraya Technological University (VTU) - 18EI54 / 18EI64: Fundamentals of Biomedical Instrumentation",
"SRM Institute of Science and Technology - 18BMC201J: Biomedical Sensors"

    ]
  }
 
}